CS F469: Information Retrieval(Spring 2024, BITS Pilani)
Undergraduate course, BITS Pilani, CSIS, 2024
Lecture content can be found here
Semester I
Semester II
PhD Courses
MATH F111 - Mathematics I (Calculus)
To be updated soon.
Courses: Advance Stochastic Processes
Undergraduate Courses: Differential equations, Computational methods for differential equations, Calculus
Postgraduate Courses: C programming, Numerical analysis
Courses: Matrix Computation and its applications, Scientific computing using MATLAB, Introduction to methods of applied mathematics.
Courses Taught multiple times as IC/Instructor
Higher Degree (M.Phil) and pre- Ph.D. courses
Courses Developed
New elective developed under revised curriculum
Higher Degree (M.Phil) and pre- Ph.D. courses
Theory Courses
CHEM F213 : Physical Chemistry II (2024)
Lab/Practical Courses
CHEM F341 : Chemical Experimentation II (2024)
I worked as a TA for six years at Northeastern University. During my TA ship I taught regular classes most of the time ( except the first semester when I only worked as a grader and tutorial instructor ). I taught mostly differential equations and linear algebra to engineering students. I have also taught elementary algebra and pre-calculus to business and nursing students.
I taught various undergraduate and graduate level courses in IISER Kolkata, I have taught courses related to, algebra, topology, graph theory, representation theory, geometry.
· Group Theory
· Ring Theory
· Representation Theory of Groups and Algebras
· Topology
· Introduction to Algebraic Topology
· Combinatorics
· Calculus –I
· Fundamentals of Mathematics
· Graph Theory
· Number Theory
First Degree :
* Courses Introduced and designed by me.
Name of Organization |
Designation held |
Total Experience (Years) |
|
Experience Prior to Ph.D. |
Birla Institute of Tech & Science, Pilani - Pilani Campus | Assistant Lecturer |
1.5 |
Experience during Ph.D. |
Birla Institute of Tech & Science, Pilani – Pilani Campus |
Lecturer |
4.5 |
Experince after Ph.D. |
Birla Institute of Tech & Science, Pilani –Pilani Campus |
Assistant Professor |
3 |
Birla Institute of Tech & Science, Pilani - Goa Campus | Assistant Professor | 2 | |
Birla Institute of Tech & Science, Pilani – KK Birla Goa Campus |
Associate Professor
|
4.5 | |
Birla Institute of Tech & Science, Pilani – KK Birla Goa Campus
|
Professor | 7.5 |
1st Semester 2024-2025
EEE F111 - Electrical Sciences
EEE F215 - Digital Design
MEL G621 – VLSI Design
First Degree Courses
· General Biology
· Microbiology
· Biological Chemistry
· Instrumental Methods of Analysis
· Genetics
· Introduction to Environmental Biotechnology
· Recombinant DNA Technology
· Experiments In Biotechnology
· Cell and Tissue Culture Technology
· Biophysical Chemistry
· Food Biotechnology
· New Venture Creation
Higher Degree Courses
· Environmental Biotechnology And Waste Management
· Microbial Fermentation Technology
· Protein and Enzyme Bioengineering
Marketing Management
Marketing Research
Digital Marketing
Brand Management
Principles of Management
Course name |
Course code |
FD/HD |
Advanced Manufacturing Processes | ME F315 | FD |
Composite Materials and Design | ME F452 | FD |
Refrigeration & Air Conditioning | ME F461 | FD |
Vibrations and Control | ME F319 | FD |
Wokshop Lab | ME F110 | FD |
Advanced Composites | MST G522 | HD |
Dynamics and Vibrations | DE G611 | HD |
Materials Technology & Testing | DE G631 | HD |
Research Practice | BITS G540 | HD |
# |
Designation |
Institution |
From |
To |
Classes Taught |
1 |
Professor |
Birla Institute of Technology & Sciences Pilani, Pilani Campus, Pilani, Rajasthan
|
01 Jun.’2021 |
-- |
First Degree, Higher Degree
|
2 |
Associate Professor |
01 Jan.’2016 |
31 May’2021 |
||
3 |
Associate Professor |
01 Feb.’2015 |
31 Dec.’2015 |
||
4 |
Assistant Professor |
01 Aug.’2010 |
31 Jan.’2015 |
||
5 |
Assistant Professor |
01 Jan.’2006 |
31 Jul.’2010 |
||
6 |
Lecturer |
10 Sep.’2004 |
31 Dec.’2005 |
||
7 |
Lecturer |
B.S.A. College of Engineering and Technology, Mathura, Uttar Pradesh |
30 Jan.’2003 |
08 Sep.’2004 |
MCA, Engineering Graduate |
8 |
Guest Assistant Teacher |
Institute of Engineering and Technology, Dr. B.R. Ambedkar University, Agra, Uttar Pradesh |
09 Mar.’2002 |
29 Jan.’2003 |
Engineering Graduate |
9 |
Guest Teacher |
Dau Dayal Institute of Vocational Education, Dr. B.R. Ambedkar University, Agra, Uttar Pradesh |
16 Jul.’2000 |
08 Dec.’2000 |
Graduate, Post-Graduate |
10 |
Visiting Lecturer |
Dehra Dun Institute of Technology, Dehra Dun, Uttarakhand |
13 Oct.’1999 |
14 Jan.’2000 |
Engineering Graduate |
11 |
Lecturer |
Uttaranchal College of Engineering, Dehra Dun, Uttarakhand |
10 Aug.’1998 |
27 Jan.’2000 |
Engineering Graduate, Engineering Diploma |
First Semester 2024 - 2025
Second Semester 2023 - 2024
1.HSS F222: Introduction to Linguistics:
Difficulty level: Moderate.2.HSS F228: Phonetics and Spoken English
Difficulty level: Easy-Moderate.
3.BITS F112: Technical Report Writing
Difficulty level: Easy-Moderate.4.BITS E661: Research Methodology (for PhD candidates)
Difficulty level: Easy-Moderate.5.PHIL C221 / HSS F236: Symbolic Logic
Difficulty level: Difficult.6.HSS F242: Introduction to Phonology
Difficulty level: Moderate-difficult.Courses in the pipeline:
Courses Taught :-
I have taught several courses during my academic career in BITS, some of these are listed below. Text books and reference material identified by author names (indicated in parenthesis) are provided as an aid in gauging the level at which each course was taught. Many of these courses were taught multiple times. Year and semester wise breakup details have not been maintained.
Cognitive Neuroscience
Cognitive Psychology
Neuropsychology
Neuropragmatics
Experimental Pragmatics
Neurolinguistics
General Linguistics
Semester-1
Course Instructor: Harikrishnan N B
Teaching Assistant: Mr. Tanmay Devale, Mr. Param Biyani
Course Duration: August 2022 to December 2022
Credit: 3
No. of students: 60
Course Instructor: Harikrishnan N B
Course Duration: Jan 2023- May 2023
Teaching Assistant: Mr. Aditya Amit Bhattacharjee
No. of students: 53 (WILP Course)
Course Instructor: Harikrishnan N B
Course Duration: August 2023- December 2023
No. of students: 272
Feedback: DD-2023 (Out of 10)
Course Instructor: Harikrishnan N B
Course Duration: Jan 2024-May 2024
No. of students: 80
Feedback: BIDL -2024 (Out of 10)
1. | Microelectronic Circuits | B E | 4th sem | BITS Hyderabad |
2. | Electronic Devices | B E | 3rd sem | BITS Hyderabad |
3. | Semiconductor Devices | B Tech | 3rd sem | IIT Kharagpur |
4. | Solid State Devices | B Tech | 3rd sem | IIT Hyderabad |
5. | Basic Electronics | B Tech | 2nd sem | IIT Kharagpur |
6. | Device Physics & Modeling | M Tech | 1st sem | IIT Kharagpur |
7. | Microprocessors & Computer Organization | B Tech | 6th sem | IIT Hyderabad |
8. | Advanced VLSI Devices | M E | 2nd sem | BITS Hyderabad |
9. | Advanced VLSI Design | M E | 2nd sem | BITS Hyderabad |
10. | Analog and Digital VLSI Design | B E | 5th sem | BITS Hyderabad |
11. | Physics and Modeling of Microelectronic Devices | M E | 1st sem | BITS Hyderabad |
1. | Advanced Nanoscale Devices - Applied to State-of-the Art VLSI | M Tech / Ph D | IIT Kharagpur |
2. | Advanced Semiconductor Physics - Applied to State-of-the Art VLSI | M Tech / Ph D | IIT Kharagpur |
Current Semester
Courses Taught
Courses Taught
First semester (AY 2024-2025):
In Veermata Jijabai Technological Institute (VJTI), Mumbai (Autonomous)
PHY-F111 Mechanics Oscillations and Waves
BITS-F111 Thermodynamics
PHY-F417 Experimental Methods of Physics
PHY-F110 Physics Laboratory
PHY-F214 Electricity Magnetism and Optics Laboratory
Sl. No. |
Title of courses taught |
Postgraduate or Undergraduate |
01 |
Refrigeration and Air-Conditioning |
Postgraduate + Undergraduate |
02 |
Conduction and Radiation Heat Transfer |
Postgraduate |
03 |
Thermal Equipment Design |
Postgraduate |
04 |
Power Plant Engineering |
Undergraduate |
05 |
Engineering Thermodynamics |
Undergraduate |
06 |
Quality Control, Assurance and Reliability (WILP) |
Undergraduate |
07 | Statistical Process Control (WILP) | Undergraduate |
08 |
Internal Combustion Engines (Tutorial) |
Undergraduate |
09 |
Prime Movers and Fluid Machines (Lab) |
Undergraduate |
10 |
Engineering Graphics using Autocad (Lab) |
Undergraduate |
11 |
Machine Design and Drawing (Lab) |
Undergraduate |
12 |
Workshop Practice (Lab) |
Undergraduate |
EEE F111 [Electrical Sciences]
EEE/ECE/INSTR F214 [Electronic Devices]
CS/EEE/ECE/INSTR F215 [Digital Design]
EEE/ECE/INSTR F243 [Signals & Systems]
EEE F246 [Electrical & Electronics circuit Lab (Signals & Systems)]
EEE/ECE/INSTR F341 [Analog electronics]
EEE F426 [Fibre Optics & Optoelectronics]
EEE/ECE F434 [Digital Signal Processing]
ES/EEE/MEL ZG573 [Digital Signal Processing] for WILP* students
ENGG ZC11 [Electrical & Electronics Technology[ for WILP* students
(* WILP : Work Integrated Learning Program)
Labs Taken
(1) Digital Design
(2) Digital Signal Processing
(3) Analog Electronics
Professional Training Taken
Successfully completed 2 Weeks Instructor Led Live Online Industrial Training Program On Artificial Intelligence & Machine Learning Using Python held during 10th - 21st January 2022 Finland Labs (A Unit of Revert Technology Pvt. Ltd., New Delhi)
10-days Live online Instructor Led training /Faculty Development Program “Applied Deep Learning in Health Care Data Analysis" from 9th May to 23rd May, 2022. Organized by Edux Labs in Association with Mechanica IIT Madras.
ECE F341/EEE F341/INSTR F341: Analog Electronics (With Tut)
ECE F314: Electromagnetic Fields and Microwave Engineering (With Tut)
ECE C452: Electromagnetic Fields and Microwave Engineering (With Tut)
ECE C433: Electromagnetic Fields and Waves (With Tut)
EA C415: Introduction to MEMS
BITS F415: Introduction to MEMS
EEE ZG571/ ES ZG571: Optical Communication (WILP)
ECE F341/EEE F341/INSTR F341: Analog Electronics Lab
EEE G540: Research Practice
Courses Taught
WILP
EEZ G515 Environmental Management Systems
CDC
F313 Separation Processes II
I teach several core and elective courses in the department:
Core courses:
Elective courses:
Subject |
Offered in |
Student’s feedback |
CHE F311 Kin. React. Des. |
Aug.-Dec-2017 |
9.17/10 |
CHE F341 Chem. Eng.Lab-II |
Jan-May 2018 |
5.65/10 |
CHE F242 Num. Meth. Chem. Eng |
Jan-May 2018 Jan-May 2019 |
7.51/10 9.15/10 |
CHE G558 Chem. Process Opti. |
Aug-Dec 2018 Jan-May 2019 Jan-May 2020 Jan-May 2021 |
8.7/10 9.42/10 Feedback not Conducted 8.18/10 |
CHE G523 Math. Meth. in Chem. Eng. |
Aug-Dec 2019 Aug-Dec 2020 Aug-Dec 2021 Aug-Dec 2023 Aug-Dec 2024 |
9.97/10 Feedback not Conducted 10/10 9.51/10 ONGOING |
BITS F111 Thermodynamics |
Jan-May 2023 |
8.59/10 |
WILP Courses |
||
EEGPC ZG513 Appl. Trans. Phenom. |
Aug.-Dec-2017 |
4.61/5 |
EEGPC ZG622 Environ Process Eng. |
Aug.-Dec-2018 Aug-Dec 2021 Jan-May 2022 |
4.61/5 4.38/5 4.51/5 |
ETZC362/PEZC411 Environ. Poll. Control |
Aug-Dec 2019 |
4.72/5 |
EE ZG511 Environ. Chem. |
Aug-Dec 2020 |
4.72/5 |
SSTMZG523 Biological Treatment Principals and Design of Wastewater Systems |
Aug-Dec 2020 |
4.75/5 |
EE ZG514/ SSTM ZG516 Environmental Sampling and Analytical Methods |
Jan-May 2021 Aug-Dec 2021 Jan-May 2022 Aug-Dec 2022 Jan-May 2023 Aug-Dec 2023 Jan-May 2024 Aug-Dec 2024 |
4.7/5 4.55/5 4.46/5 4.51/5 4.45/5 4.25/5 4.10/5 ONGOING |
Special operation in Chemical Engineering
Thermodynamics
Separation Processes I
Fluid Mechanics
Reaction Engineering and design (Kinetics and reactor design)
Process Equipment Design
Process Control
Electrochemical Engineering
Transport Phenomena (UG and PG)
Chemical Engineering lab
I have been teaching two specialized courses which were designed by me and introduced from second semester of 2020-21.
These courses are: PHY F346 : Laser Science and Technology. This course is open to all Physics and Engineering students.
The second course is PHY F433 : Topics in Nonlinear Optics. This is an elective for Physics students only who have earlier taken the Optics course. This course started a year after the earlier course.
Apart from these two courses, I have been involved in teaching the three physics student labs viz. 1) Electromagnetics and Optics Laboratory, 2) Modern Physics Laboratory and 3) Advanced Physics Laboratory. I have also modified and updated the laboratory manuals of all experiments in the First year Physics Lab, EMO lab, Modern Physics Lab and Advanced Physics Lab, and a few experiments have been replaced by new experiments.
Introduction to Data Science
Data Mining
Machine Learning
Advanced Data Mining
Network Security
Operating Systems
Computer Programming
Introduction to Data Science
Data Mining
Machine Learning
Advanced Data Mining
Network Security
Operating Systems
Computer Programming
Semester I (Autumn), 2024-25: Pervasive Computing (CS G541), CS&IS, BITS Goa
Semester II (Spring), 2023-24: Computer Programming (CS F111), CS&IS, BITS Goa
Semester II (Spring), 2023-24: Computer Programming Lab (CS F111), CS&IS, BITS Goa
Semester I (Autumn), 2023-24: Pervasive Computing (CS G541), CS&IS, BITS Goa
Semester I (Autumn), 2023-24: Computer Architecture Lab (CS F342), CS&IS, BITS Goa
Semester II (Spring), 2022-23: Human-Computer Interaction (BITS F364), CS&IS, BITS Goa
Semester II (Spring), 2022-23: Operating Systems Tutorial (CS F372), CS&IS, BITS Goa
Semester I (Autumn), 2022-23: Pervasive Computing (CS G541), CS&IS, BITS Goa
Semester II (Spring), 2021-22: Human-Computer Interaction (BITS F364), CS&IS, BITS Goa
Semester II (Spring), 2021-22: Computer Networks Lab (CS F303), CS&IS, BITS Goa
Semester I (Autumn), 2021-22: Pervasive Computing (CS G541), CS&IS, BITS Goa
Chemical Process Calculation (On Campus)- CHE F211
Chemical Process Calculation (WILP) - PE ZC 321
Chemical Engineering Laboratory (On Campus)
Environmental Chemistry (WILP) - EEZG511
Research Methodology(On Campus)-BITS G661
Electrochemical Engineering - CHE G556
Project Courses:
Financial Management
Financial Analysis and Risk Management
Fundamentals of Finance and Accounting
Security Analysis and Portfolio Management
Principles of Management
Fundamental Courses:
Compulsory Disciplinary Courses:
Discipline Elective Courses:
Mathematical Modeling (MATH F420)
WILP Courses:
Engineering Mathematics – I (MATH ZC161)
Calculus (MATH ZC233 / PE ZC233)
BIO F111: GENERAL BIOLOGY (Previously BIO C111)
BIO F 212: MICROBIOLOGY (Previously BIO C212)
BIO C322: ECOLOGY (Previously BIO C322)
BIO F342: IMMUNOLOGY (Previously C 416)
BIO F244: INSTRUMENTAL METHODS OF ANALYSIS (Previously C391)
BIO C 231: BIOLOGY PROJECT LABORATORY
TA C211: MEASUREMENT TECHNIQUES 1(Biology)
BIO F 110: BIOLOGY LABORATORY
BIOT F 424: FOOD BIOTECHNOLOGY
BITS F 225: ENVIRONMENTAL STUDIES
BIO G514: MOLECULAR IMMUNOLOGY
BIO G523: ADVANCED APPLIED MICROBIOLOGY
BIO G513: MICROBIAL FERMENTATION TECHNOLOGY
BIO G651: PROTEIN AND ENZYME ENGINEERING
BITS C313; BITS C314: LABORATORY ORIENTED PROJECT
BITS C323; BITS C324: STUDY ORIENTED PROJECT
BITS C382: READING COURSE
BITS G620; PROFESSIONAL PRACTICE I
BITS G621; PROFESSIONAL PRACTICE II
BITS G540 RESEARCH PRACTICE
BITS C421T THESIS
BITS 629T DISSERTATION
B.E. and M.Sc. Biological Sciences Programmes
General Biology
Biology Laboratory
Animal Physiology
Genetics
Genomics
Molecular Biology of the Cell
Instrumental Methods of Analysis
M.E. Biotechnology Programme
Molecular Mechanisms of Gene Expression
Genetic Engineering
Human Genetics
Recent Developments in Biology
Stem cells and Regenerative Biology
Biostatistics and Biomodelling
Multidisciplinary and physics courses at the undergraduate level (B. E. / M. Sc. students).
Promoted classroom demonstration experiments for the courses.
• Mechanics, oscillations and waves
• Electronic devices
• Thermodynamics
• Electromagnetic theory
• Mechanics, oscillations and waves Lab
• Solid State Physics
• Physics of Semiconductor Devices
• Atomic and molecular physics
• Electricity and Magnetism Lab
• Modern Physics Lab
• Advanced Physics Lab
1. Thermodynamics (BITS F111)
2. Applied Thermodynamics (ME F214)
3. Prime Movers and Fluid Machines (ME F341)
4. Transport Phenomena (CE F212)
5. Renewable Energy (BITS F462)
6. Fuel Cell Science and Technology (ME F414)
7. Non-destructive Testing Techniques (MST G511)
8. Computer Aided Design (ME F342)
9. Computational Fluid Dynamics (ME G515)
10. Computer Aided Analysis and Design (ME G611)
11. Mechanical Engineering Lab (ME F215)
12. Research Practice (BITS G540)
Theory Courses
PHYC131 Physics 1(Old Curriculum)
PHYC132 Physics 2(Old Curriculum)
TA GC252 Computer Programming 2(Old Curriculum)
PHY C311 Electromagnetic theory 1(Old Curriculum)
MATH C222 Discrete structures in Computer science(few lectures in a shared multi session course, Tut)(Old Curriculum)
PHY C 321 Quantum Mechanics 1(Old Curriculum)
PHY C421 Quantum mechanics II (Old Curriculum)
PHY F213 Optics
PHY F420 Quantum Optics(Shared with another instructor)
PHY F212 Electromagnetic theory-1 (common for PHY, EEE, INSTR &CHE)
PHY F421 Advanced Quantum Mechanics(Shared with another instructor)
PHY F412 Introduction to Quantum Field Theory
MATH F211 Mathematics-III
PHY F315 Theory of Relativity
PHY F243 Mathematical methods in Physics
PHY F241 Electromagnetic theory-2
PHY F345 Quantum Mechanics for Engineers
PHY G513 Classical electrodynamics
BITS F111 Thermodynamics(Tutorials)
PHY G514 Quantum theory and applications
Lab Courses
PHY C391 IMA (Old curriculum )
TA GC211 Measurement Techniques-1(Old Curriculum)
Physics Lab 1(Mechanics and Waves)
Physics Lab2(Optics, Electricity and Magnetism)
Physics Lab3 (Modern Physics lab)
Project Courses
BITS C323/324 SOP
Physics Project Lab
PHY F376 Design Project
PHY F376 Study Project
Courses Developed
PHY F420 Quantum Optics (with Prof. Radhika Vatsan)
PHY F345 Quantum Mechanics for Engineers
Disaster management
Leadership in Emergency management
Decentralization and development
Local governance
Sociology
Human Geography
BITS F112: Technical Report Writing
GS F231: Dynamics of Social Change
HSS F362: Local Governance and Participation
HSS F363: Disaster and Development
Physical Geography, Human Geography and Population Geography to under graduate students
Geomorphology to MSc students
Learning History through Maps to MA students
Country and Town Planning to B.Tech. Civil engineering students
TEACHING EXPERIENCE:
Year |
Semester-I |
Semester-II |
2023-2024 |
CHE F613: Advanced Mass Transfer |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2022-2023 |
CHE F613: Advanced Mass Transfer |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2021-2022 |
CHE F212: Fluid Mechanics CHE F613: Advanced Mass Transfer |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2020-2021 |
CHE F212: Fluid Mechanics CHE F613: Advanced Mass Transfer |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2019-2020 |
CHE F212: Fluid Mechanics CHE F613: Advanced Mass Transfer |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2018-2019 |
CHE F342: Process Dynamics & Control CHE F471: Advanced Process Control |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2017-2018 |
CHE F212: Fluid Mechanics CHE C473: Advanced Process Control |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2016-2017 |
CHE F212: Fluid Mechanics CHE C473: Advanced Process Control |
CHE F244: Separation Processes-I CHE F342: Process Dynamics & Control |
2015-2016 |
CHE F212: Fluid Mechanics CHE C473/F471 & INSTR F413: Advanced Process Control |
CHE F244: Separation Processes-I CHE F342: Process Dynamics & Control |
2014-2015 |
CHE F212: Fluid Mechanics CHE C473/F471 & INSTR F413: Advanced Process Control CHE C441: Process Control |
CHE C473/F471 & INSTR F413: Advanced Process Control CHE F342: Process Dynamics & Control |
2013-2014 |
CHE C361: Mass Transfer Operations CHE C473: Advanced Process Control BITS C313/ 314: Lab Oriented Project |
CHE F244: Separation Processes-I CHE F342: Process Dynamics & Control BITS C313/ 314: Lab Oriented Project |
2012-2013 |
CHE C361: Mass Transfer Operations CHE C473: Advanced Process Control BITS C313/ 314: Lab Oriented Project |
CHE F244: Separation Processes-I CHE C441: Process Control BITS C313/ 314: Lab Oriented Project |
2011-2012 |
CHE C361: Mass Transfer Operations CHE G541: Process Plant Simulation BITS C313/ 314: Lab Oriented Project |
CHE G541: Process Plant Simulation CHE C441: Process Control BITS C313/ 314: Lab Oriented Project |
2010-2011 |
CHE C361: Mass Transfer Operations CHE C473: Advanced Process Control |
CHE C322: Chemical Process Technology CHE C441: Process Control |
2009-2010 |
CHE C432: Computer Aided Process Plant Design CHE C473: Advanced Process Control |
CHE C432: Computer Aided Process Plant Design CHE C441: Process Control TA C222: Measurement Techniques-II |
2008-2009 |
CHE C431: Select Che. Engineering Lab 409352: Project Costing & Appraisal |
CHE C322: Chemical Process Technology |
2007-2008 |
Fundamental of Chemical Engineering |
Environmental Engineering Transport Phenomena |
2006-2007 |
Fundamental of Chemical Engineering |
Fundamental of Chemical Engineering |
Undergraduate Engineering courses ( For B.E. hons. Programme)
Project type courses
Post Graduate Engineering Courses (For M.E. Microelectronics/M.E. Embedded Systems Programme)
Work Integrated Learning Programme (WILP) On-Line/ Video Lectures (For M.S.Programme)
c
Electromagnetic theory - II (2nd course of EMT for MSc students)
Statistical mechanics (Introductory course for MSc students)
Computational Physics (for MSc. students)
Nonlinear dynamics (Introductory elective course taught from Strogatz)
Modern physics (covers relativity, introductory wave mechanics)
Theoretical Neursocience (an elective course based on book by Dayan and Abbott)
Neural networks (an elective taught from Zurada for all science and engg students)
Mechanics, oscillations and waves (taught from Kleppner & French) for all science & engg students)
Physics - II (1st course in EMT for all science & engg students )
Structure and properties of matter
Measurement technique - 1 (Lab course for all science and engg students)
Physics Lab - 1 (Lab course for all science and engg students)
Instrumental method of analysis (Lab course for MSc)
Classical Mechanics
FIRST DEGREE
Year |
Semester I |
Semester II |
2013-2014 |
Microfluidics and its applications BITS F417 |
Introduction to Nanoscience and Nanotechnology CHE G528 |
|
Environmental Pollution Control ETZC362 |
Environmental Pollution Control ETZC362
|
|
Chemical Engineering Laboratory–I (LAB) CHE F312 |
|
|
Chemical Process Calculations CHE F211/CHE 221 |
|
|
||
2014-2015 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Environmental Pollution Control (POWJSZC411) (Aditya Birla, Essar & Tata Power) |
Physico Chemical Treatment Processes & Design of Wastewater Systems (GSPCB) EE*ZG521 |
|
||
2015-2016 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Applied Transport Phenomena (GSPCB) EE*ZG513 |
Chemical Engineering Laboratory - II (LAB) CHE F314 |
|
||
2016-2017 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory–I (LAB) CHE F312 |
Chemical Engineering Laboratory - II (LAB) CHE F314 |
|
|
Research Methodology-I BITS G661
|
|
|
Material Science and Engineering CHE F243 |
|
||
2017-2018 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory–I (LAB) CHE F312 |
Research Methodology-I BITS G661
|
|
||
2018-2019 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory-I (LAB) CHE F312 |
Research Methodology-I BITS G661 |
|
|
Process Plant Design Project I CHE F416
|
|
||
2019-2020 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory-I (LAB) CHE F312 |
Process Plant Design Project I CHE F416 |
|
|
Process Plant Design Project II CHE F417
|
|
|
Heat Transfer CHE F241
|
|
||
2020-2021 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory-I (LAB) CHE F312 |
Process Plant Design Project I CHE F416 |
|
Process Plant Design Project I CHE F416 |
Process Plant Design Project II CHE F417
|
|
Process Plant Design Project II CHE F417
|
Heat Transfer CHE F241 |
|
|
|
2021-2022 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory-I (LAB) CHE F312 |
Process Plant Design Project I CHE F416 |
|
Process Plant Design Project I CHE F416 |
Process Plant Design Project II CHE F417 |
|
Process Plant Design Project II CHE F417
|
Material Science and Engineering CHE F243 |
|
Engineering Chemistry CHE F214 |
|
|
|
|
2022-2023 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Process Plant Design Project I CHE F416 |
Chemical Engineering Laboratory - II (LAB) CHE F341 |
|
Process Plant Design Project II CHE F417 |
Process Plant Design Project I CHE F416 |
|
Engineering Chemistry CHE F214 |
Process Plant Design Project II CHE F417 |
|
|
|
Undergraduate Courses(Multi-section) |
|
ES C112 |
Thermodynamics |
TA C211 |
Measurement Techniques -II |
ES C242 |
Structure and Properties of Materials |
BITS F225 |
Environmental Studies |
Undergraduate Courses Chemical Engineering Compulsory Disciplinary Courses |
|
CHE C221 |
Chemical Process Calculations |
CHE F242 |
Numerical Methods for Chemical Engineers |
CHE F244 |
Separation Processes I |
CHE F213 |
Chemical Engineering Thermodynamics |
CHE F244 |
Separation Processes I |
CHE F313 |
Separation Process II |
CHE F313 |
Chemical Engineering Laboratory I |
CHE F341 |
Chemical Engineering Laboratory II |
Undergraduate &Postgraduate Chemical Engineering Electives |
|
CHE F411 |
Environmental Pollution Control |
CHE C322 |
Chemical Process Technology |
CHE C413 |
Process Plant Safety |
CHE G522 |
Polymer Technology |
Postgraduate Chemical Engineering Compulsory Disciplinary Courses |
|
CHE G622 |
Advanced Chemical Engineering Thermodynamics |
BITS E661 |
Research Methodology |
Work Integrated Learning Programme(WILP) |
|
PERL ZC 231 |
Engineering Materials |
PERL ZC321 |
Chemical process calculations |
PERL ZC 311 |
Chemical Engineering Thermodynamics |
PEAB ZC382 |
Cement Technology |
PE ZC319 |
I have taught a variety of courses on campus since October 2005. They are listed below:
This introductory physics laboratory introduces the art of experimentation in Physics through various experiments in Mechanics, Oscillations and Waves.
All students of BITS Pilani study this course irrespective of their program of study. This course is an elementary introduction to the theory and applications in the subject area of Mechanics, Oscillations and Waves.
This course introduces the Lagrangian and Hamiltonian mechanics of a system with finite degrees of freedom. Three classes of applications that are included in the course of study are:
This course introduces the student to the unified theory of Electricity, Magnetism and Light. The course is roughly divided into three parts, each of which addresses the following questions:
The theory of interacting charged particles and electromagnetic fields is analyzed in detail.
I have taught this course twice before under the pre-2012 curriculum framework. The first part discussed a variety of partial differential equations while the second part was devoted to basic elements of group theory and its representations.
A laboratory course consisting of exciting experiments from Modern Physics.
Teaching is the bit in my professional life that I enjoy most. From teaching the first year physics and mathematics courses to wide eyed freshers to teaching advanced physics courses to the die hard physics enthusiast, I relish the challenge of presenting ideas and concepts in physics with as much transparency as is possible.
Semester I, 2024-25
Special Topics in Statistical Mechanics (PHY F423) Advanced course in statistical mechanics that covers interacting systems, mean field theory, phase transitions and renormalization group. (Text books: Statistical Mechanics by Kerson Huang, Equilibrium Statistical Mechanics by M. Plischke and B. Bergersen and Principles of Condensed Matter Physics by P. M. Chaikin and T.C. Lubensky.)
Statistical Physics and Applications (PHY F516) A course in equilibrium statistical mechanics for PhD students. (Text books: Statistical Physics of Particles by M Kardar)
Semester II, 2023-24
Mechanics Oscillations and Waves (PHY F111) The bread and butter course of our department, where we engage the freshers with intermediate mechanics and related topics of waves and oscillations. After a quick revision of fundamental laws and necessary mathematical introduction, advanced topics such as rigid body motion, non-inertial frames, coupled oscillators and Fourier analysis of waves are discussed. (Text book: An Introduction Mechanics by Kleppner and Kolenkow, Introduction to Waves by A P French.)
Theoretical Neuroscience (BITS F317) A first course in Theoretical Neuroscience that introduces neuronal behavior modelling using non-linear differential equations as well the concepts of encoding and decoding of neural data. (Text books: Introduction to neuronal dynamics by Gerstner et al, Introduction to Theoretical Neuroscience by Dayan and Abbott)
Some of the course taught over the semesters
Physics Lab - 1 (PHY F110)
Mechanics lab that runs in tandem with the course on Mechanics, Oscillations and Waves for undergraduate students. It has an assorted set of 10 experiments exploring various concepts in mechanics. Some of the experiments included are: Gyroscope, Coupled Pendulum, Maxwell's wheel etc.
Classical Mechanics (PHY F211)
Second course on mechanics for the physics masters students. Topics covered includes: Planetary motion, rigid body motion, small oscillations, Lagragian and Hamiltonian formalism, Hamilton Jacobi theory. Text books: Classical Mechanics by H. Goldstien, Introduction to classical mechanics by Landau & Lifshitz )
Computational Physics (PHY F313)
A course that focuses on computational numerical analysis with stress on solving physics problem. The course has got a strong hands on component wherein student use the techniques they learn in computational lab to solve problems from mechanics, electricity and magnetism, quantum mechanics and nonlinear dynamics. (Texts book: A First Course in Computational Physics by P L Devries and J E Hasbun, An Introduction to Computational Physics by Tao Pang)
Electromagnetic Theory-2 (PHY F241)
A second course in electricity and magnetism that look at electromagnetic waves (in a vacuum and media), radiation and special theory of relativity. (Text books: Introduction to Electrodynamics by D J Griffiths, Classical Electrodynamics by D Jackson, Feynman Lectures Vol -2)
Mathematics-2 (MATH F112)
A first year course taken by all engineering and science students dealing with introductory linear algebra and complex analysis. (Text books: Elementary Linear Algebra by S Andrilli and D Hecker, Complex Variables and Applications by Churchill and Brown)
Nonlinear Dynamics and Chaos (BITS F316)
An introductory course focusing on methods of studying nonlinear systems. This enables one to explore the rich dynamical behavior these systems exhibit. The students are introduced to bifurcations, fixed points, limit cycles and chaos in nonlinear system. Throughout the course the focus is on applying the methods learned in understanding the dynamics of various systems that are relevant in science and engineering. (Text book: Nonlinear Dynamics and Chaos by Steven H Strogatz)
Analog & Digital VLSI Design
Courses Taught / Teaching :
ECON F313: Issues in Economic Development
ECON F412/FINF313: Security Analysis and Portfolio Management
ECON F315: Financial Management
ECON F244: Economics of Growth and Development
FIN F414: Financial Risk Analysis and Management ECON F413: Financial Engineering
ECON F242: Micro economics ECON F243: Macro Economics
ECON F312: Money Banking and Financial Markets
ECON F311: International Trade and Balance of Payments ECON F341: Public Finance Theory and Policy
ECON F211: Principles of Economics
ECON F212: Fundamentals of Finance and Accounts ECON F241: Econometrics Methods
ECON F214: Economic Environment of Business
Mathematical Micro economics, Indian Economics, Computational Business Economics
Stem Cell and Regenerative Biology
Fundamentals of Tissue Engineering
Biology laboratory
Developmental Biology
Instrumentation method and analysis
General Biology
Integrated Biology
AS Instructor in Charge
Sanitation and Public Health (SAN G512)
Sanitation and Public Health (SSTM ZG512) in WILP mode
Environmental Studies (BITS F225)
AS Instructor
Genetic Engineering Techniques (BIO F418)
Experimental Techniques (BIO G642)
Biology Laboratory (BIO F110)
General Biology (BIO F111)
Instrumental Methods of Analysis (BIO F244)
Applied Machine Learning
Neural Networks and Fuzzy Logic
Deep Learning
Generative AI.
Courses Teaching(2024-25):
First Degree (M.Sc.) Course taught:
Pre-PhD Course taught:
SEMESTER WISE BREAK UP:
YEAR |
SEM I |
SEM II |
2003 - 2004 |
- |
CHEM C142, CHEM C351 |
2004 - 2005 |
CHEM C141 |
CHEM C142 |
2005 - 2006 |
CHEM C141, CHEM C211, TA C211 |
CHEM C142, CHEM C231 |
2006 - 2007 |
CHEM C141, CHEM C322 |
CHEM C352, CHEM C411 |
2007 - 2008 |
CHEM C141, CHEM C322 |
CHEM C231, CHEM C352, CHEM C411 |
2008 - 2009 |
CHEM C141, CHEM C322 |
CHEM C352, CHEM C411, CHEM G552 |
2009 - 2010 |
TA C211, CHEM C322, ASCR |
CHEM C352, CHEM C411, CHEM G541 |
2010 - 2011 |
TA C211, CHEM C321 |
CHEM C142, CHEM C352 |
2011 - 2012 |
CHEM F111, CHEM C321 |
CHEM C322, CHEM F110, ASCR |
2012 - 2013 |
CHEM F111, CHEM C321, BITS E574 |
CHEM C322, CHEM F241, CHEM F244 |
2013 - 2014 |
CHEM F110, CHEM F312, CHEM C311 |
CHEM C322, CHEM F241, BITS G513 |
2014 - 2015 |
CHEM F110, CHEM F312, CHEM F422, BITS C421T |
CHEM F241, CHEM F110 |
2015 - 2016 |
CHEM F111(L), CHEM F312(IC), CHEM F110, CHEM G553, CHEM C491, CHEM F376/7 |
CHEM F241, CHEM F110, CHEM F376/7 |
2016 - 2017 |
CHEM F111(L), CHEM F312(IC), CHEM F213, CHEM G553 |
CHEM F241, CHEM F244, CHEM G552 |
2017 - 2018 |
CHEM F111(L, IC), CHEM F312(IC), CHEM F213, CHEM G553 |
CHEM F241, CHEM F244, CHEM G552, CHEM G558 |
2018 - 2019 |
CHEM F111(T), CHEM F312(IC), CHEM F213, CHEM G553 |
CHEM F241, CHEM F244, CHEM F110, BITS G513 |
2019 - 2020 |
CHEM F110, CHEM F312(IC), CHEM F213, CHEM G553, BITS G529/G539 |
CHEM F241, CHEM F244, CHEM F110, BITS G513, BITS G529 |
2020 - 2021 |
CHEM F312, CHEM F213, CHEM F335, CHEM F266, CHEM F376, CHEM G553, BITS G513 |
CHEM F241, CHEM F244, CHEM F110, CHEM F266, CHEM F376, CHEM G529, CHEM G558 |
2021 - 2022 |
CHEM F312, CHEM F111, CHEM F266, CHEM F376/7, CHEM G553 |
CHEM F241, CHEM F376/7, BITS C421T |
2022 - 2023 |
CHEM F111, CHEM F312, CHEM F335, CHEM F376, CHEM F266 |
CHEM F341, CHEM F320, CHEM F376/7, CHEM F266 |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME F312 LEC + TUT |
ADV MECHANICS OF SOLIDS |
Instructor In-charge (Feedback: 8 /10) |
First Degree |
On-campus Lecture |
ME G512 LEC |
FINITE ELEMENT METHOD |
Instructor In-charge (Feedback: 7.24 /10) |
Higher Degree |
On-campus Lecture |
ME F342 LAB |
COMPUTER AIDED DESIGN |
Instructor (Feedback: 8.73 /10) |
First Degree |
On-campus Lab |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME F218/312 LEC + TUT |
ADV MECHANICS OF SOLIDS |
Instructor (Feedback: 8.48 /10) |
First Degree |
On-campus Lecture |
BITS F110 LAB |
ENGINEERING GRAPHICS |
Instructor (Feedback: 7.54 /10) |
First Degree |
On-campus Lab |
DEZG513 |
FINITE ELEMENT METHODS |
Instructor In-charge (Feedback: 4 / 5) |
Higher Degree |
WILP |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME G512 LEC |
FINITE ELEMENT METHOD |
Instructor In-charge (Feedback: 8.5 /10) |
Higher Degree |
On-campus Lecture |
ME F313 / ME F315 LAB |
PRODUCTION TECHNIQUES II / Advanced Manufacturing Process |
Instructor (Feedback: 7.81 /10) |
First Degree |
On-campus Lab |
DEZG513 |
FINITE ELEMENT METHODS |
Instructor In-charge (Feedback: 4.38 / 5) |
Higher Degree |
WILP |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME G611 LEC |
COMP AIDED ANAL & DESIGN |
Instructor In-charge (Feedback: 8.65 /10) |
Higher Degree |
On-campus Lecture |
ME F318/342 LAB |
COMPUTER AIDED DESIGN |
Instructor (Feedback: 7.64 /10) |
First Degree |
On-campus Lab |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME G512 LEC |
FINITE ELEMENT METHOD |
Instructor In-charge (Feedback: 9.25 /10) |
Higher Degree CDC+ First Degree Elective |
On-campus Lecture |
BITS F110 LAB |
ENGINEERING GRAPHICS |
Instructor (Feedback: 7 /10) |
First Degree |
On-campus Lab |
DEZG513 |
FINITE ELEMENT METHODS |
Instructor In-charge (Feedback: 4.06 / 5) |
Higher Degree |
WILP |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME F318 LEC |
COMPUTER AIDED DESIGN |
Instructor In-charge (Feedback: 8.43 /10) |
First Degree CDC |
On-campus Lecture |
ME F318 LAB |
COMPUTER AIDED DESIGN |
Instructor In-charge (Feedback: 8.42 /10) |
First Degree CDC |
On-campus Lab |
MBAZG531 / QMZG531 |
STATISTICAL QUALITY CONTROL |
Instructor In-charge (Feedback: 4.36 / 5) |
Higher Degree |
WILP |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME G512 LEC |
FINITE ELEMENT METHOD |
Instructor In-charge (Feedback: 8.75 /10) |
Higher Degree CDC+ First Degree Elective |
On-campus Lecture |
BITS F110 LAB |
ENGINEERING GRAPHICS |
Instructor (Feedback: 8.32 /10) |
First Degree |
On-campus Lab |
DEZG513 |
FINITE ELEMENT METHODS |
Instructor In-charge (Feedback: 4.15 / 5) |
Higher Degree |
WILP |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME F318 LEC |
COMPUTER AIDED DESIGN |
Instructor In-charge (Feedback: 8.27 /10) |
First Degree CDC |
On-campus Lecture |
ME F318 LAB |
COMPUTER AIDED DESIGN |
Instructor In-charge (Feedback: 7.67 /10) |
First Degree CDC |
On-campus Lab |
BITS F110 LEC+TUT |
ENGINEERING GRAPHICS |
Instructor In-chargeLecture Feedback: 8.45 /10Tutorial Feedback: 9.09 /10 |
First Degree |
On-campus Lecture & Tutorial |
Instructor in charge for two B.E. courses – Engineering Graphics (520 students) and Computer aided design (140 students), one of them is third year CDC and the other is a first year course |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
BITS F110 LEC+TUT |
ENGINEERING GRAPHICS |
Instructor (Feedback: … /10) |
First Degree |
On-campus Lecture + Lab |
DEZG513 |
FINITE ELEMENT METHODS |
Instructor In-charge (Feedback: .../ 5) |
Higher Degree |
WILP |
EEE F111 - Electrical Sciences (IC)
ECE/EEE/INSTR F214 - Electronic Devices (IC)
CS/ECE/EEE/INSTR F215 - Digital Design (IC)
ECE/EEE/INSTR F244 - Microelectronic Circuits (IC)
EEE/INSTR F313 - Analog and Digital VLSI Design
EEE F427 - Fiber Optics and Optoelectronics (IC)
EEE F477 - Modeling of Field Effect in nanodevices (IC)
MEL G631 - Physics and Modeling of Microelectronic Devices (IC)
MEL G621 - VLSI Design (IC)
I designed semester-long courses that are offered to select students on a particular research topic of interest. These are normally offered in the first semester of every academic year. They are intended to introduce undergraduate students to research areas and the latest technology trends.
Nanoelectronics for a post-CMOS era
Semiconductor Memory Device Technology
Neuromorphic Circuit Design
2D Semiconductor based electronics
I post videos on various topics related to electronics on youtube, some related to my classes and some in general.
You can visit the channel here.
CHE F 341 Chemical Engineering Laboratory-II
Graduate Courses
BIO F111 General Biology
BIO F213 Cell Biology
Compulsory Courses
English Language Skills-I
Introductory Psychology
Technical Report Writing
Electives
Cross Cultural Skills
Readings from Drama
Negotiation Skills and Techniques
Current Affairs
Comparative Indian Literature
Public Administration
WILP
Off -Campus Course: Technical Report Writing(both Non/structured )
Power Electronics
Taught WILP-Biocon courses
Teaching as Faculty :
Organization |
Capacity |
Duration |
BITS Pilani, K K Birla Goa Campus |
Associate Professor (Tenured) |
w.e.f March 01, 2023 - present |
BITS Pilani, K K Birla Goa Campus, India |
Assistant Professor (Tenured) |
10 years |
University of Indianapolis, IN |
Assistant Professor |
04 Months |
Community College of Allegheny County, West Mifflin, PA |
Adjunct Assistant Professor |
10 Months |
Point Park University, Pittsburgh, PA, |
Adjunct Assistant Professor |
05 Months |
Ramakrishna Mission Vivekananda Centenary College, Rahara, WB, India |
Lecturer (Tenured) |
2 years, 09 Months |
Total Teaching as Faculty |
|
14 years, 4 months |
Teaching as Graduate Student
Organization |
Capacity |
Duration |
Carnegie Mellon University |
Graduate Student |
7 Years, 2 ½ months |
Jawaharlal Nehru University |
Graduate Student |
06 Months |
Total Teaching as Graduate Student |
|
7 years, 8 ½ months |
Doctoral Students Supervised in BITS GOA
Doctoral Students Currently under Supervision
Co-Supervisor (Joint PhD Supervision)
Graduate
Undergraduate
Carnegie Mellon University, Pittsburgh, PA (Graduate Student Teaching)
Teaching as Junior Lecturer
OFF-CAMPUS (WILP)
IS C462 |
NETWORK PROGRAMMING |
BITS ZC411/IS ZC313 |
OBJECT ORIENTED PROGRAMMING |
CS C313/IS C313 |
OBJECT ORIENTED PROGRAMMING AND DESIGN |
SS G514/SS ZG514 |
OBJECT ORIENTED ANALYSIS AND DESIGN |
CS C372 / IS C362/CS F372 |
OPERATING SYSTEMS |
BITS C342 |
OBJECT ORIENTED PROGRAMMING |
MATH C222/CS/IS F222 |
DISCRETE STRUCTURES FOR COMPUTER SCIENCE |
CS C341/IS C361 |
DATA STRUCTURES AND ALGORITHMS |
CS C471/ IS C471/IS F311 |
COMPUTER GRAPHICS |
IS C351 CS F111 |
COMPUTER ORGANIZATION AND ARCHITECTURE COMPUTER PROGRAMMING |
TA C162 |
COMPUTER PROGRAMMING I |
TA C252 CS G523 EEE G627/SS ZG656 CS G623 |
COMPUTER PROGRAMMING II SOFTWARE FOR EMBEDDED SYSTEMS NETWORKED EMBEDDED APPLICATIONS ADVANCED OPERATING SYSTEMS |
|
|
ES C263 |
MICROPROCESSOR PROGRAMMING (Lab) |
BITS G620 |
PROFESSIONAL PRACTICE I |
BITS G540 |
RESEARCH PRACTICE |
TA C111 |
ENG GRAPHICS (Lab) |
TA C211 |
MEASUREMENT TECHNIQUES I |
|
|
PHY C322 PHY C232 |
SOLID STATE PHYSICS COMPUTATIONAL PHYSICS |
PHY C131 |
PHYSICS I |
PHY C132 |
PHYSICS II |
PHY C391 |
IMA |
PROJECT/ RESEARCH Type |
COMPUTER PROJECTS, STUDY ORIENTED PROJECTS, LAB ORIENTED PROJECTS, INFORMATION SYSTEMS PROJECT, SPECIAL PROJECTS, RESEARCH PRACTICE, THESIS, DISSERTATION |
|
|
|
|
BITS F234 Introduction to Engineering Design (BE First Year Course)
ME G641 Theory of Elasticity and Plasticity (ME Final Year Course)
List of courses taught at BITS Pilani |
|
1. |
Electromagnetic Fields and Waves [CDC for ECE] |
2. |
Electromagnetic Fields and Microwave Engineering [Elective for ECE/EEE/E&I] |
3. |
Electrical Sciences [Fundamental course for first year] |
4. |
Digital Design [CDC for ECE/EEE/E&I] |
5. |
Antenna theory and Design [Elective for ECE/EEE/E&I] |
6. |
Digital Signal Processing [CDC for ECE] |
7. |
Analog Electronics [CDC for ECE/EEE/E&I] |
8. |
Communication Networks [CDC for ECE] |
9. |
RF and Microwave Engineering [CDC for masters in Communication Systems] |
Cell Biology
Cancer Biology
Animal Cell Technology
Experimental Technique
Advance Cell and Molecular Biology
Genetic Engg.
Courses
Courses taught :
Operating Systems
Real-time Systems
Database Systems
Computer Programming
Advanced Operating Systems
Courses Currently teaching:
Operating Systems
Labs conducted:
Database systems
Computer Programming
Operating systems
Real-time systems
Computer Architecture
"The true teachers are those who help us think for ourselves." - Dr. Sarvepalli Radhakrishnan
2024-25 first semester: NLP for third and fourth year undergraduate students.
During the current Semester-I, 2024-25, I continue to teach the first degree course “BITS F462 Renewable Energy”, to students from various First Degree Programs of the Institute, Viz. AA, A3, A4, A8.
During the past semesters during Academic Years from 2000-2001 to 2023-2024, courses taught include discipline elective courses and, compulsory discipline courses, as follows:
Discipline Elective Courses:
Compulsory Discipline Courses:
All Courses Taught/Teaching
FIRST DEGREE (UNDERGRADUATE) COURSES
HIGHER DEGREE (POSTGRADUATE) COURSES
PRE-PH.D. COURSES (OFFERED AS PART OF PH.D. COURSE WORK)
PH.D. COURSES
COURSES TAUGHT
FIRST DEGREE COURSES
HIGHER DEGREE COURSES
PROJECT BASED COURSES
1. Chemical Engg. Lab-I, CHEF312 , FD 2. Kinetics & Reactor Design, CHEF311 Tut, FD 3. Chemical Engg. Lab-II, CHEF312 4. Chemical Process Optimization, CHEG558, HD 5. Environmental Process Engineering, EEZG622, HD (WILP) 6. Process Control & Instrumentation, PEZC453, FD (WILP)
|
Current Semester I (2024-2025)
Courses taught
ECON F241: ECONOMETRIC METHODS
ECON F242: MICROECONOMICS
ECON F343: ECONOMIC ANALYSIS OF PUBLIC POLICY
BITS F314: GAME THEORY AND ITS APPLICATIONS
ECON F213: MATHEMATICAL AND STATISTICAL METHODS
Parallel Computing
Lecture M - W - F (3:00 PM to 3:50 P.M) in C-401
2023-2024 Semester-I Parallel C0mputing
2023-2024 Semester-I Computer Organization & Architecture (WILP)
2023-2024 Semester-II Microprocessor & Interfacing
ECON F211: PRINCIPLES OF ECONOMICS
ECON F242: MICROECONOMICS
ECON F311: INTERNATIONAL ECONOMICS
ECON F242: MATHEMATICAL AND STATISTICAL METHODS
Courses Taught/Teaching in BITS
Courses Designed
Courses Developed
Courses Taught in Institutions prior to BITS
CHEM C141 Chemistry I
CHEM C142 Chemistry II
TA C211 Measurement Techniques I
CHEM C391 Instrumental Methods of Analysis
CHEM C232 Chemistry of Organic Compounds
CHEM C331 Structure & Reactivity of Organic Compounds
CHEM C332 Synthetic Organic Chemistry
CHEM F242 Chemical experimentation I
CHEM F110 Chemistry Laboratory
CHEM F111 General Chemistry
CHEM F243 Organic Chemistry II
CHEM F311 Organic Chemistry III
CHEM F342 Organic Chemistry IV
CHEM F414 Bio and Chemical Sensors
CHEM G531 Recent Advances in Chemistry
CHEM F313 Instrumental Methods of Analysis
Fundamentals of Finance & Accounts
Financial Management (On-Campus & WILP)
Security Analysis & Portfolio Management
Business Analysis & Valuation
Behavioral Finance (WILP)
Financial & Management Accounting (WILP)
PHY F110 |
Physics Laboratory |
PHY F111 |
Mechanics, Oscillations and Waves |
PHY F212 |
Electromagnetic Theory 1 |
ES C242 |
Structure and Properties of Materials |
PHY F211 |
Classical Mechanics |
PHY F214 |
Electricity, Magnetism and Optics Laboratory |
PHY F244 |
Modern Physics Laboratory |
PHY F312 |
Statistical Mechanics |
PHY F341 |
Solid State Physics |
PHY F344 |
Advanced Physics Laboratory |
BITS F316 |
Nonlinear Dynamics and Chaos |
BITS F416 |
Introduction to Nanoscience |
BITS F417 |
Microfluidics and its applications |
PHY F414 |
Physics of Advanced Materials |
PHY F266 |
Study Project |
PHY F366/ PHY F367 |
Laboratory Project |
PHY F376/ PHY F377 |
Design Project |
BITS F423T |
Thesis |
BITS G641 |
Modern Experimental Methods 1 |
BITS G629T |
Dissertation (M.E) |
BITS G661 |
Research Methodology |
TA C111 & BITS F110 Engineering Graphics
ME C382 Computer Aided Design
ME F432 Computer Aided Manufacturing
ME G611 Computer Aided Analysis and Design
TA C222 Measurement Techniques – II
TA C112 Workshop Practice
POWJS ZC481 & POWES ZC481 Plant layout and Design (WILP)
ET ZC235 Manufacturing Processes (WILP)
DE ZG 515 Finite Element Methods (WILP)
ME C211 Applied thermodynamics (Tutorial)
ME C331 Transport Phenomena – II (Tutorial)
GS F223: Introduction to Mass Communication
Birla Institute of Technology and Science, Pilani - Hyderabad campus is one of the premier technical and science institutes of higher learning in India.
The sprawling campus is built amidst lush greenery spreading over 200 acres of land at Jawahar Nagar, Shameerpet, Hyderabad. Surrounded by natural beauty, the campus is about 70 kilometers away from Rajiv Gandhi International Airport, Shamshabad and 27 kilometers from Secunderabad railway station.
Technical Institute in non-Govt. category by India Today
In Pharmacy Category by the QS India Ranking
completing in the service of nation
University Graduate QS India Employability Ranking 2022 by
startups 14 Unicorn & 01 Decacorn
of DST Grant on NMICPS
Engaged to create vibrant Entrepreneurship & Innovation eco-system
The newest of the four BITS Pilani campuses, the Hyderabad campus currently houses 12 departments spanning the gamut of pure science and applied science. Each of these departments is notable for their excellent faculty, the curriculum offered, the research it conducts and the number of sponsored projects the department has won.
In any higher education system, research plays a crucial and integral role. Here at BITS Pilani, Hyderabad Campus, we actively encourage research among both staff and students. The Institute accords adequate importance and support to applied research besides basic research, which forms the basis of all applied research.
Our centers are involved in varied activities ranging from Software Development and Robotics to Women's studies and Desert Development Technologies.
Major cleanroom facilities. BITS Pilani Hyderabad campus established state of the art facilities for
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"The E-CELL at BITS Pilani, Hyderabad Campus is aimed at fostering entrepreneurial skills among the
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I-cell is to promote and support innovations across the spectrum of science and technology with appl
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BITS Pilani WILP Convocation 2024
24 August, 2024International Symposium cum Workshop
11 July, 2024An International Conference on Sustainable Urban Water Management for Fast Growing Cities
6 April, 2024National Symposium on Current
Trends in Pharmaceutical Sciences
(CTPS) – 2024
International Women’s Day Celebrations – 2024
6 March, 20242024 Batch Reunion for Batches of 2012 & 2013
11 January, 2024Overseas Student Doctoral Programme Academic Year 2023-24
30 November, 2023The Indian Mathematical Society (IMS)-2023
19 July, 2023Learn more about BITS-RMIT Higher Education Academy
9 June, 2023BITS Pilani invites applications to register for PhD First Semester, 2023–2024.
11 May, 2023Bachelor of Science in Computer Science
20 April, 2023About or Nearly 600 students from the Hyderabad campus sit for placements every semester, of these almost 100% succeed in securing a job.
Birla Institute of Technology & Science, Pilani
Hyderabad Campus
Jawahar Nagar, Kapra Mandal
Medchal District - 500 078
Telangana, India
I. Courses Taught at BITS Pilani, Hyderabad Campus
(1) Signals and Systems (BE 2nd Year ECE/EEE/INSTR, 1 time, Feedback-9.41/10).
(2) Neural Network and Fuzzy Logic (BE 3rd Year ECE/EIE/EEE/CSE/IT, 5 times, average Feedback-9/10).
(3) Introduction to Artificial Neural Network (ME 1st year Communication/ Embedded system, 2 times, Feedback-9.68/10).
(4) Digital Signal Processing (BE, ECE/EIE/EEE students, 1 time)
1. Signals and system using MATLAB (2 times, Feedback-9.09/10).
2. Neural Network and Deep Learning using MATLAB and Python (Feedback-7.46/10).
III. Courses Taught at Previous University
(1) Introduction to Information Theory (EET3061, BTech 7th Sem, ECE)
(2) Introduction to MATLAB (MTH 3006, BTech 4th Sem, EEE and CSE)
IV. Teaching Assistant in Courses at IIT Guwahati
(1) Biomedical Signal Processing (EE 626, Course Instructor: Prof. Samarendra Dandapat, Branches: BTech 7th Sem, MTech 1st sem, PhD)
(2) Linear Algebra and Optimization (EE 504, Course Instructor: Prof. Samarendra Dandapat, Branches: MTech 1st sem, PhD)
(3) Probability and random Processes (EE 506, Course Instructor: Prof. Samarendra Dandapat, Branches: MTech 1st sem, PhD)
Year 2024-2025
FD Courses (Regular Term)
S. No. |
Course Title and No. |
Program |
1 |
PHARMACEUTICAL UNIT OPERATIONS – I (BS PS ZC311) |
WILP |
2 |
DOSAGE FORM DESIGN (POMZG512) |
WILP |
3 |
Applied Industrial Microbiology (2022-CPBIOCON) |
WILP |
Courses being taught at BITS Pilani, Hyderabad campus (Since August 2017):
Sl.No |
Course name |
Course type |
1 |
General Biology (BIO F111) |
First degree (FD) |
2 |
Biology Laboratory (BIO F110) |
First degree (FD) |
3 |
Genetics (BIO F243) |
First degree (FD) |
4 |
Instrumental Methods of Analysis (BIO F244) |
First degree (FD) |
5 |
Plant Physiology (BIO F312) |
First degree (FD) |
6 |
Genomics (BIOT F346) |
First degree (FD) |
7 |
Project-oriented courses (LOP- BIO F366, SOP-BIO F266, DOP-BIO F376) |
First degree (FD) |
8 |
Molecular Mechanisms of Gene expression (BIO G512) |
Higher degree (HD) |
9 |
Plant Biotechnology (BIO G643) |
Higher degree (HD) |
10 |
Study in Advanced Topics (SAT) (BITS G513) |
Higher degree (HD) |
11 |
WILP Online Course as part of B.Sc. Computer Science: General Biology |
First Degree (Online course offered through Coursera) |
12 |
WILP course: Advances in Industrial Microbiology (AIM) |
Course taught in collaboration with BIOCON |
Sl.No |
Course name |
Role |
Course type: Designed for |
1 |
Molecular Genetics 605-Molecular Genetics I |
Recitation Instructor |
Advanced: Master’s and doctoral students |
2 |
Molecular Genetics 606-Molecular Genetics II |
Recitation Instructor |
Advanced: Master’s and doctoral students |
3 |
Plant Cellular and Molecular Biology (PCMB) 300 |
Lab and Recitation Instructor |
Advanced: undergraduate Biology majors |
4 |
Biology 114: Form, Function, Diversity, and Ecology |
Lab and Recitation Instructor |
Advanced: undergraduate Biology mjaors |
5 |
Biology 113: Energy Transformation and Development |
Lab and Recitation Instructor |
Advanced: undergraduate Biology mjaors |
6 |
PCMB 102: Plants, People and the Environment I |
Instructor |
Introductory: undergraduate non-Biology majors |
7 |
PCMB 101: Introduction to Plant Biology I: Plants, People and the Environment II |
Lab and Recitation Instructor |
Introductory: undergraduate non-Biology majors |
8 |
Biology 101: Introduction to Biology |
Lab and Recitation Instructor |
Introductory: undergraduate non-Biology majors |
9 |
Biology 102: Human Biology – A Case Studies Approach |
Lab and Recitation Instructor |
Introductory: undergraduate non-Biology majors |
10 |
Biology102: Human Biology (Biology in films) |
Recitation Instructor |
Introductory: undergraduate non-Biology majors |
Mentoring Experience at the Ohio State University (OSU) and Indiana University (IU), USA
· Mentored new teaching associates at the Center for Life Sciences Education, OSU.
· Mentored undergraduate students and international visiting scientists in research at OSU and IU (USA).
· Served as Orientation Facilitator on two different topics (Teaching & Learning; International Teaching Associates panel) during 2009 orientation for new Teaching Associates and faculty members at OSU (USA) organized by UCAT (University Center for Advancement of Teaching)
Qualification in National Eligibility Tests
· National Eligibility Test for Lectureship in the subject of Life Sciences conducted by Council of Scientific & Industrial Research (CSIR), New Delhi, India, during 1999.
· National Eligibility Test for Lectureship/Assistant Professorship in Genetics (1999), conducted by Agricultural Scientists Recruitment Board (ASRB), New Delhi.
Transportation Planning: CE G565
Transportation Data Analytics: CE G572
Public Transportation: CE G566
Freight Transportation: CE G575
Highway Design: CE G535
Traffic Engineering and Safety: TEPWG ZG536
Highway Engineering Tutorial: CE G244
Highway Engineering Lab: CE G244
Code |
Course Name |
UG/PG |
Year |
Institute
|
MEC 208 |
Engineering Materials (Lecture) [Credit-5] |
UG |
2010, 2011 |
LPU |
MEC 532 |
Advanced Composite Materials (Lecture) [Credit-3] |
PG |
2016 |
LPU |
MEC 483 |
Mechanical Behavior of Materials (Lecture) [Credit-3] |
PG |
2016 |
LPU |
DE G513 |
Tribology (Lecture + Laboratory) [Credit-5] |
PG |
2020, 2021 |
BITS, HYD |
MST G522 |
Advanced Composite Materials (Laboratory) [Credit-2] |
PG |
2019 |
BITS, HYD |
BITS F412 |
Practice School |
UG |
2019 |
BITS, HYD |
DE G522 |
Design Project (Research) [Credit-5] |
PG |
2020 |
BITS, HYD |
BITS F110 |
Engineering Graphics (Laboratory + Tutorial) [Credit-2] |
UG |
2019, 2020, 2021 |
BITS, HYD |
DE G631 |
Materials Technology & Testing (Lecture + Laboratory) [Credit-5] |
PG |
2019, 2020, 2021, 2022 |
BITS, HYD |
ME G641 |
Theory of Elasticity & Plasticity (Laboratory) [Credit-2] |
PG |
2019 |
BITS, HYD |
ETZ C416/ PEZ C413 |
Production Planning & Control (WILP - Lecture) [Credit-3] |
Working Professional |
2020 |
BITS, HYD |
DEZ G663 |
Concurrent Engineering (Lecture + Laboratory) [Credit-5] |
PG |
2021, 2022 |
BITS, HYD |
DEZ C663/ QMZ G663 |
Concurrent Engineering (WILP - Lecture) [Credit-3] |
Working Professional |
2021 |
BITS, HYD |
ENGG ZC332/ PEZ C234 |
Engineering Materials (WILP - Lecture) [Credit-3] |
Working Professional |
2022 |
BITS, HYD |
ME F216 |
Materials Science and Engineering (Laboratory) [Credit-1] |
UG |
2022 |
BITS, HYD |
ME F112 |
Workshop Practice (Laboratory) [Credit-2] |
UG |
2022 |
BITS, HYD |
ME F320
|
Engineering Optimization (Tutorial) [Credit-1] |
UG |
2022 |
BITS, HYD |
Teaching Experience (F – FALL, S – SPRING)
Coursework |
||
Associate Professor, BITS-Pilani, Hyderabad |
||
2021 - |
Courses Proposed CE GXXX: Nondestructive Evaluation of Structures CE GXXX: Climate Change Adaptation in Structural Engineering Graduate Courses CE G562: Advanced Concrete Technology (F24, S24, F23, F21) Undergraduate Courses CE F320: Design of Reinforced Concrete (F24, F23, F22, S22, F21) CE F416: Computer Applications in Civil Engineering (S22, S23) CE F242: Construction Planning and Technology (S24) BITS F110: Engineering Graphics Laboratory (S22, S23) |
|
Assistant Professor, BITS-Pilani, Hyderabad |
||
2015 - 2021 |
Courses Developed CE F416: Computer Applications in Civil Engineering CE G562: Advanced Concrete Technology |
|
|
Graduate Courses Taught CE G617: Advanced Structural Analysis (F20, F19, F18, F17, F16) CE G562: Advanced Concrete Technology (F23, S21, S20, F19, F18, F17) |
|
|
Undergraduate Courses Taught CE F320: Design of Reinforced Concrete (F23, F22, S22, F21, F20, F19) CE F416: Computer Applications in Civil Engineering (S22, S21, S20, S19, S18, S17, S16) BITS F110: Engineering Graphics Laboratory (F21, F20, S19, S18, S16) CE F230: Civil Engineering Materials Laboratory (F18) MATH F113: Probability and Statistics (S17) CE F311: Design of Reinforced Concrete Structures (F16, F15)
|
CS F211 Data Structures and Algorithms (Tutorial & Practical )
CS F363 Compiler Construction (Practical)
IS ZC363 Data Structures and Algorithms (WILP Course)
CS G526 Advanced Algorithms and Complexity (IC)
CS F214 Logic in Computer Science (IC)
BITS F232 Foundations of Data Structures (IC)
CS F222 Discrete Structures for Computer Science (Tutorial)
CS F351 Theory of Computation (Tutorial)
As an instructor, I have achieved the following:
2017-2018: SemI (Aug 2017-Dec 2017)
BIO F212 : MICROBIOLOGY + IC + Lec (Full) + Lab (Co-taught with co-instructors) + 1 Tut (Full)
BIO F111 : GENERAL BIOLOGY - 1 Tut (Full) [Course has >500 students]
2017-2018: Sem II (Jan 2018-May2018)
WILP: BITS BIOCON AIM 3 : Pharmaceutical Microbiology (Co-Taught)
BIO F111 : GENERAL BIOLOGY - 1 Tut (Full) [Course has >500 students]
BIO F342 : IMMUNOLOGY- IC + Lec (Co-Taught; Half course) + Tut (Co-Taught; Half course)
BIO G523 : ADV & APPLIED MICROBIO + Lec (Co-Taught; Half Course)
2018-2019: Sem I (Aug 2018- Dec 2018)
WILP: BITS BIOCON AIM4 : Pharmaceutical Microbiology (Co-Taught)
BIO F212 : MICROBIOLOGY IC + Lec (Full) + Lab + Tut (Full)
BIO F211 : BIOLOGICAL CHEMISTRY + Lec (Co-Taught; Half Course) + Tut (Co-Taught; Half Course)
BIO F266 : STUDY PROJECT - IC
BIO F366 : LABORATORY PROJECT - IC
BIO F367 : LABORATORY PROJECT - IC
BIO F376 : DESIGN PROJECT - IC
BIO F377 : DESIGN PROJECT - IC
2018-2019 : Sem II (Jan 2018-May 2018)
BIO F111 : GENERAL BIOLOGY + Lec (Co-Taught; Half Course) + 1 Tut (Full) [Course has >500 students]
BIO G523 : ADV & APPLIED MICROBIO + Lec (Co-Taught; Half Course)
2019-2020 : Sem I (Aug 2019-Dec 2019)
BIO F110 : BIOLOGY LABORATORY + IC + 1 Section (Full) [Course has >500 students]
BITS F225 : ENVIRONMENTAL STUDIES + IC + Lec (Co-taught; ⅓ course)[Course has >500 students]
BIO F212 : MICROBIOLOGY + IC + Lec (Full course) + Lab (Co-taught with co-instructors)
2019-20 : Sem II (Jan 2019-May 2019)
WILP: SSTM ZG512 : Sanitation and Public Health (Co-taught)
BIO F111 : GENERAL BIOLOGY 1 Tut (Full) [Multi-section course has >500 students]
BIO F244 : INSTRU METHODS OF ANAL (Lab) (Co-taught)
BITS F467 : BIOETHICS & BIOSAFETY + IC + (Co-taught, half course)
2020-21: Sem I (Aug 2020-Dec 2020)
BIO F211 : BIOLOGICAL CHEMISTRY + IC + Lec (Full course) + Tut (Co-taught with co-instructor)
BIO G514 : MOLECULAR IMMUNOLOGY + Lec (Co-taught, half course)
2020-21: Sem II (Jan 2021-May2021)
BIO F111 : GENERAL BIOLOGY + 1 Tut (Full) [Multi-section course has >500 students]
BIO F212 : MICROBIOLOGY + IC + Lec (Full course) + Lab (Co-taught with co-instructors)
2021-2022: Sem I (Aug 2021-Dec 2021)
BIO F212 : MICROBIOLOGY + IC + Lec (Full) + Lab (Full with co-instructors)
BITSF467: BIOETHICS & BIOSAFETY + IC + Lect (Half course, co-taught)
2021-2022 : Sem II (Jan - May 2022)
BIO G523 : ADV & APPLIED MICROBIO + Lec (Half course, co-taught)
BIO F111 : GENERAL BIOLOGY Part 1 - IC [Multi-section >250 Students]
2021-2022 Sem II (May-August 2022)
BIO F111 : GENERAL BIOLOGY Part 2 - IC + Lec (Half course) + 1 Tut (Full) [Multi-section >300 students]
2021-2022: Summer Term (May - Aug 2022)
BITS F467 : BIOETHICS & BIOSAFETY + IC + Lec (Full course)
2022-2023 : Sem I (Aug 2022-Dec 2022)
BIO F212 : MICROBIOLOGY - IC + Lec (Half course, co-taught) + Lab (Full with co-instructors)
2022-2023: Sem II (Jan 2023-May 2023)
BIO G523 : ADV & APPLIED MICROBIO +IC + Lec (Half course, co-taught) + Lab (Full with co-instructors)
2022-2023 : Sem II (March 2023-July 2023)
BIO F111 : GENERAL BIOLOGY - 1 Tut (Full) [Multi-section >500 students]
The following short term courses were designed and are being taught to executives of Sun Pharmaceutical Industries Ltd.:
Projects/First degree theses/ Higher degree dissertations guided/guiding
· More than 60 projects/theses/Dissertations covering various areas of research viz. Energy efficiency in process industries, application of multi – criteria analyses based decision making models using fuzzy logic principles, use of geographic information systems for the estimation of energy demand for solar energy utilization, techno – economic analysis of solar hot water systems; Heat transfer; Refrigeration and air conditioning; Web based survey and analysis of survey data; Automation of Practice school division of BITS, Pilani; Software developmental projects for computerization of various activities of Academic Registration and Counselling Division (ARCD) of BITS, Pilani – Hyderabad Campus (please see “Academic administration activities” for more details).
· First-degree thesis in the area of modifications of heat and momentum transfer analyses of liquid flat plate collectors.
· Higher Degree dissertation in the area of automation of Practice School Division.
Specific accomplishments/Distinctions
· Rated as one of the excellent teachers of Thermal Engineering courses at BITS, Pilani, Dubai and Hyderabad Campuses
· Delivered a lecture on Thermodynamics in the presence of Dr. Abdul Kalam, Ex- President of Republic of India during his visit to BITS, Pilani Dubai campus
Lab establishment activities
As a faculty member of Thermal Engineering, established
· Three laboratories viz. Transport Phenomena, Prime Movers & Fluid Machines and Renewable energy laboratories at BITS, Pilani – Hyderabad Campus.
· Two laboratories viz. Transport Phenomena and Prime Movers & Fluid Machines at BITS Pilani Dubai campus starting from the identification of vendors to inspection to the commissioning of the equipment.
· different thermal engineering/energy related equipment for Thermal engineering laboratories at BITS, Pilani
Equipment procured include various equipment to study thermo-physical properties of materials, convective heat and mass transport equipment, heat exchange equipment, various fluid flow measuring devices, various types of Internal combustion engines, turbines, compressors, pumps etc. along with test rigs and data acquisition systems.
Post Graduate level:
Graduate level:
Off campus courses:
Fall Semester 2024-2025
ECE F311: Communication Systems
EEE F311: Communication Systems
ECE F314: Electromagnetic Fields & Microwave Engineering
1. Chemical Process Technology - CHE F419 (4 Semesters)
2. Thermodynamics Lecture &Tutorials - BITS F111 ( 4 Semesters)
3. Corrosion Engineering - CHE F433 (5 Semesters )
4. Materials Science & Engineering / Engineering Materials (4 Semesters)
5. Measurement Techniques 2 lab - TA C222 (3 Semesters)
6. Separation Processes II - CHE F313 (4 Semesters)
7. Fluid Mechanics - CHE F212 (3 Semesters)
8. Environmental Pollution Control - CHE F411 (3 Semesters)
9. Composite Materials and Design - ME F452 / Advanced Composites - DEZG 526 (2 Semesters) (Semester-1/2020-21: 8 hrs video recording for WILP)
10. Chemical Engineering Laboratory 2 - CHE F341 (3 Semesters)
11. Materials Processing - MST F332 (4 Semesters)
12. Introduction to Nanoscience & Technology - CHE G528 (1 Semester)
13. Paper and Pulp Technology - CHE G529 (1 Semester)
14. Chemical Engineering Laboratory 1 - CHE F312 (2 Semesters)
15. Process Equipment Design - CHE F412 ( 6 semesters including WILP)
16. Biological treatment Principles and Design for wastewater systems (1 Semester)
17. Advances in Materials, Composites and Plastics-AEZG612 (1 Semester)
18. Research Methodology - BITS G661 ( 2 Semesters)
19. Environmental Studies - BITS F225 (2 Semesters)
2023-2024
2024-2025
2007-2010 : BITS Pilani Pilani Campus
2010- ........ : BITS Pilani Hyderabad Campus
Courses Taught in Second Semester 2020-2021 at BITS Pilani, Dubai Campus:
1) Manufacturing Processes (First degree course)
2) Workshop Practices (First degree course)
Electronic Instruments & Instrumentation Technology (4h of labs per week)
COURSES Taken in BITS
Following different courses taught/currently teaching (including WILP)
On-campus
Thermodynamics (BITS F111)
Heat Transfer Operation lab (CHE C351)
Petroleum Ref & Petrochemicals (CHE G512)
Measurement Tech. II (TA C222)
Mass Transfer Operation (CHE C361)
Control system (AAOC C321)
Kinetics reactor design ( CHE F311 & CHE C312)
Process dynamics and Control (CHE F342)
Environmental Pollution Control (CHE F411)
Chemical Engg Lab-II (CHE F341)
Chemical engineering thermodynamics (CHE F213)
Petroleum refinery Engineering (CHE G617)
Research methodology-1 (BITS G661)
Engineering chemistry (CHE F214)
Study oriented project CHE F266/F267
Lab oriented Project CHE F366/367
Environmental studies (BITS F225)
Separation process -II (CHE F313)
Reaction Engineering (CHE G641)
Off campus (WILP)
Environmental Pollution Control (POWAB ZC411)
Transport Phenomena (PERL ZC316)
Environmental Pollution Control (PERL ZC361)
Fundamental of transport process (PE ZC318)
EEE G626: Hardware-Software Codesign (MSc Embedded Systems)
This is a hands on course focusing on Xilinx Zynq SoC platform-based system design. Students are expected to have background in Verilog HDL and C programming language. Detailed couse handout can be found Here
Lecture 1 : Introduction [Slides]
Lecture 2 : Overview [Slides]
Lecture 3 : Zynq Architecture[Slides]
Lecture 4 : AXI Protocol[Slides]
Lecture 5 : Device Drivers (Standalone OS)[Slides]
Lecture 6 : Direct Memory Access[Slides]
Lecture 7 : Design of an Image processing IP[Slides]
Lecture 8 : Real-time Operating Systems[Slides]
Lecture 9 : High-level Synthesis[Slides]
In Semester 1, 2024-25, I am teaching the following two courses: (i) Quantum Mechanics for Engineers(PHYF345)-an undergraduate course and (ii) Quantum Theory & Applications(PHYG514)- a PhD level course.
The set of courses that I taught in BITS: I have taught the following courses: (i)Mechanics, Oscillations & Waves, (ii) Electrodynamics, (iii) Classical Mechanics,
(iv)Quantum Mechanics I & II, (v) Modern Physics, (vi)Statistical Mechanics, (vii)Mathematics III (Differential Equations and it's application),
(vii) Nuclear & Particle Physics, (viii) Theory of Relativity, (ix)Particle Physics, (x) Introduction to Astronomy & Astrophysics,
(xi)General Theory of Relativity & Cosmology, (xii) Physics Laboratory I, (Xiii) Advanced Physics Lab.
Text Books:
TB1: Introduction to Quantum Mechanics, D. J. Griffith, 2nd Edition, Pearson Education.
This course aims to introduce the basic concepts of General Theory of Relativity and it's application in Cosmology i.e. to know the behavior of the universe at large scale. After reviewing basic concepts of special relativity (in 4 vector formalism), the notion of tensor, covariant derivative, geodesics, curvature tensor, Ricci tensor, Ricci scalar, Einstein tensor and hence the Einstein equations will be derived. The Schwarzschild black hole solution of the Einstein equation will be discussed, which will be followed by Physics near the massive objects. The FRW cosmology will be discussed at a length and finally inflationary cosmology will be introduced in brief.
Text Books:
TB1: A short course in General Theory of Relativity, Foster and Nightingale (Springer).
General Chemistry (CHEM F110)
Environmental Science (BITS F225)
First year practical course (CHEM F111)
Instrumental Methods of Analysis (CHEM F313)
Inorganic Chemistry II (CHEM F 241)
Instrumental Analysis lab course (CHEM F314)
Physical Methods in Chemistry (CHEM G554)
Advanced Inorganic Chemistry (CHEM G552)
Courses:
Most of these courses have been conducted multiple times over the past nine years. The primary objective is to engage learners and facilitate them to find their motivation in each course in a practical, real world based and personalized manner. The courses should add some significant meaning to the learners in terms of skills and comprehension of the workings of the world (both experimental and cerebral are of equal importance, learn by doing is the motto). The learners are encouraged to integrate science and engineering, academic and real world and experimental and simulation techniques.
Engineering Chemistry (second year core course)
Materials Science and Engineering (second year core course)
Materials Characterization (third year Materials Science Minor Program core course)
Materials Processing (third year Materials Science Minor Program core course)
Chemical Engineering Laboratory - I (third year core course)
Chemical Engineering Laboratory - II (third year core course)
Separation Process (third year core course)
Process Control and Dynamics (third year core course)
Chemical Process Technology (elective)
Process plant Safety (elective)
Polymer Technology (elective)
Intro to Nanoscience and Nanotechnology (elective)
Thermodynamics (institute wide course)
Environmental Studies (institute wide course)
Research Methodology (first year Masters core course)
Engineering Materials (non-specific WILP course)
Certification program/courses conducted in Instrumentation, Sensors and Controls at Grasim Industries, Nagda
Laboratory Oriented Project Course:
Topics include Polymerization kinetics, Investigation of polymerization induced phase separation, Development of value-added products from biomaterials and Development of biomaterial formulations for microencapsulation applications by using electrospinning, development of sizing agents for carbon fiber composites, materials characterization to investigate and enhance the performance of phenolic resin based composites and relaxation behavior studies of solid polymer electrolytes in lithium ion batteries) and 3D printing of biopolymers for biomedical applications.
Study Oriented Project Course:
Topics include Development and characterization of biocomposites, Thermodynamic studies of protein and pharmaceutical interactions, Carbon nanotubes for flow sensor applications, Relaxational behavior of complex systems, Amorphization of pharmaceuticals and Development and interfacial characterization of carbon fiber based composites)
Guest lectures provided for course titled Bio-conversion Technology and offered by Dept. of Biological Sciences
Mentoring
BIO F110 BIOLOGY LABORATORY - Instructor-in-charge
BIOT F346 GENOMICS - Instructor-in-charge
BIO F111 GENERAL BIOLOGY - Instructor & Lecturer
BIO F110 BIOLOGY LABORATORY - Instructor
BIO G510 APPL OF COMP AND STATS IN BIOLOGY - Instructor-in-charge
BIO F110 GENERAL BIOLOGY - Instructor
BIOT F346 GENOMICS - Instructor-in-charge
2010-2011 1st: Chem C141, Chemistry 1, TAC211, Measurement Technique 1
2010-2011 2nd:ESGC242, Structure-properties of materials , Chem C 411, Chemical Experimentation
2011-2012 1st:Chem C141, Chemistry 1, TAC211, Measurement Technique
2011-2012 2nd: ESGC242, Structure-properties of materials, Chem C 411, Chemical Experimentation
2012-2013 1st Chem F214, Inorganic Chemistry 1, Chem F111, General Chemistry Chem F110, Chemistry Lab
2012-2013 2nd ChemC411, Chemical Experimentation, Chem F 110, Chemistry Lab.
2013-14 1st ChemF214, Inorganic Chemistry 1, Chem F 110, Chemistry Lab.
2013-14 2nd Chem F 343, Inorganic Chemistry III, ChemC411, Chemical Experimentation(II), Chem F325, Polymer Chemistry.
2014-15 1st ChemF214, Inorganic Chemistry 1, Chem F326, Solid State Chemistry, Chem F 110, Chemistry Lab.
2014-15 2nd ChemC411, Chemical Experimentation (II) , Chem F 325, Polymer Chemistry, Chem F 343, Inorganic Chemistry III.
2015-2016 1st ChemF214, Inorganic Chemistry 1, Chem F326, Solid State Chemistry, Chem F312, Physical Chemistry IV.
2015-16 2nd ChemC411, Chemical Experimentation (II) , Chem F 343, Inorganic Chemistry III
2016-2017 1st ChemF214, Inorganic Chemistry 1, Chem F326, Solid State Chemistry, Chem F312, Physical Chemistry IV
2016-17 2nd Chem C 411, Chemical Experimentation (II) , Chem F 343, Inorganic Chemistry III
2017-2018 1st ChemF214, Inorganic Chemistry 1, Chem F326, Solid State Chemistry, Chem F312, Physical Chemistry IV
2017-2018 2nd Chem C411, Chemical Experimentation (II) , Chem F 343, Inorganic Chemistry III
2018-2019 1st ChemF214, Inorganic Chemistry 1, Chem F312, Physical Chemistry IV, Chem F 110, Chemistry Lab.
2018-2019 2nd Chem F 110, Chemistry Lab. , Chem F 343, Inorganic Chemistry III.
2018-2019 Summer(May-2019-July-2020): Practice School I Faculty (Area: bio-medical/Bio-pharma)
2019-2020 1st Chem F 214, Inorganic Chemistry I, Chem F 110, Chemistry Lab., Chem F 111, General Chemistry
2019-2020 2nd Chem F 110, Chemistry Lab., Chem F 343, Inorganic Chemistry III.
2020-2021 1st Chem F214, Inorganic Chemistry I, Chem F 110, Chemistry Lab., Chem F 111, General Chemistry
2020-2021 2nd Chem F 110, Chemistry Lab., Chem F 343, Inorganic Chemistry III, Chem F 411, Chemical Experimentation, II
2021-2022 1st Chem F214, Inorganic Chemistry I, Chem F 111, General Chemistry, Oct. 2021-Jan 2022
2021-2022 2nd Chem F 110, Chemistry Lab. (SPOT ADM May-Aug. 2022, Chem F 343, Inorganic Chemistry III, Chem F 411, Chemical
Experimentation, II, Chem F 111,General Chemistry (SPOT ADM Jan 29-April 30).
2022-2023 1st Chem F214, Inorganic Chemistry I, Chem F 111, General Chemistry, (Oct. 2022-Feb 2023)
2022-2023 2nd Chem F 110, Chemistry Lab. (March -July 2023, Chem F 326, Solid State Chemistry.
2023-2024 1st Chem F214, Inorganic Chemistry I, Chem F 111, General Chemistry.
2023-2024 2nd Chem F 110, Chemistry Laboratory, Chem F 326, Solid State Chemistry.
Summer Term, 2023-2024, Chem F 366, Laboratory Project.
2024-2025 1st Chem F214, Inorganic Chemistry I, Chem F 111, General Chemistry.
BE and M. Sc. (3-4 units): Lab. Project, Study Project, Designed Project, Special Project
Pre-Phd courses (5-6 level, 5 unit credit): (1) Research Project(I) (Topics/Titles: Synthesis, advanced characterization
and properties study, Advances in analytical chemistry, Application of chemical and Instrumental Techniques for materials synthesis.
(at advanced level)), (2) Research Project (II) (Topic: Fine particle magnetism including structure properties correlation),
(3) Physical Methods in Chemistry.
[*(2006-2010):Domain of Teaching Involvements in courses (Old Curriculum): CHEM I, CHEM II, MT I, MT II, SPM, CE II, CPL
along with project courses (SOP, LOP, COP)]
2021-2022 1st: Design Projects (# students 7), Study Project (# student 1)
2021-2022 2nd: Lab. Project (# students 1), Study Project (# students 3)
Physical Methods in Chemistry, Chem G 554 (Pre-Phd course)
2022-2023 1st: Design Projects (# students 3), Study Project (# student 3)
2022-2023 2nd: Lab. Project (# students 1), Study Project (# students 5)
2023-2024 1st: Lab. Project (# students 3), Study Project (# students 1), Design Project (# students 2)
2023-2024 2nd: Lab. Project (# students 2), Study Project (# students 1), Design Project (# student 2)
Research Projects - I ( BITS G 529) (Pre-PhD), Application of Chemical and Instrumental
Analytical Techniques for materials Synthesis (# students 1)
2024-2025 1st: Lab. Project (# students 1), Study Project (# students 1)
Research Projects - II ( BITS G 539) (Pre-PhD), Structural Characterization and nanomagnetism in
Solid State Materials (# students 1)
At BITS Pilani, Goa Campus
* This is a multi-section course.
At IISER Tirupati
At IISER Pune (as a TA during my PhD)
Verilog HDL with Quartus and Modelsim
In this playlist we go through the fundamentals of Verilog HDL and modelling of basic digital circuit elements using Verilog. The fundamental takeaway is although Verilog syntax looks like other programming languages (such as C) and it is a Turing complete language, it is more of a hardware description language. HDLs were initially introduced more as a way for efficient documentation and simulation and was later adopted for synthesis also. As a hardware designer, the structure and operation of the circuit should be in your mind and you are describing it in Verilog. It is then up to the EDA tools to interpret your description and implement using a target technology (such as FPGA). The main challenge here is to properly and efficiently describe the hardware. For demonstration, we use Modelsim simulator and Intel Quartus but the concept and code can be used with any HDL EDA tools.
Reconfigurable Embedded Systems with Xilinx Zynq APSoC
This playlist provides sample applications implemented on Xilinx Zynq APSoC platform through Xilinx Vivado design suite. Most of the examples follow hardware-software codesign approach and is the base for my hardware-software co-design course. Viewers are expected to be conversant with Verilog HDL and C programming language to follow the contents.
LPC2378 Embedded C Programming with Keil
This playlist contains sample embedded programming for LPC2378 microcontroller. These videos are recorded as part of the Embedded Systems Design Course offered at BITS Pilani, Goa (EEE G512).
Internet of Things (IoT) with Amazon AWS
This playlist introduces Amazon AWS IoT core platform. Since the videos were created a few years back, some of the steps might have changed in the latest AWS platform.
Professional Ethics, Symbolic Logic, Logic in Computer Science, Introductory Philosophy, Theoretical Approaches to Liberal Studies, Research Methodology, Research Ethics, and Introduction to Contemporary Art
Prof. Sachin Waigaonkar is engaged in teaching a diverse array of courses at the university, encompassing both on-campus classes and Work Integrated Learning Programs. His expertise lies in the fields of Manufacturing, Quality Control, and the Design and Manufacturing of advanced materials, particularly Polymer Composites. Some of the courses he instructs include:
No of Students | ||||||||||||
Course Name | Course ID | 2018 | 2019 | 2020 | 2021 | 2022 | 2023 | 2024 | ||||
Sem II | Sem I | Sem II | Sem I | Sem II | Sem I | Sem II | ||||||
Compulsory courses for First Degree | ||||||||||||
students | ||||||||||||
Technical Report Writing | BITS F112 | 80 | 80 | 80 (IC) | 80 | 80 | ||||||
Compulsory courses for M.Tech students | ||||||||||||
Sanitation | SAN G513 | 4 (IC) | ||||||||||
Governance and Behaviour | ||||||||||||
Electives for First | ||||||||||||
Degree Students | ||||||||||||
Public Policy (IC) | GS F233 | 52 | 105 | 95 | 90 | 95 | 75 | 75 | ||||
Environment | GS F212 | 80 | 80 | 84 | 85 | 90 | 120 | 120 | 70 | 70 | 68 | |
Development Climate Change(IC) | ||||||||||||
Environmental Sustainability | HSSF381 | Thisisaveryspecialcoursethataimstohelpstudents buildclimatetechstart-ups,incollaborationwith | 50 | |||||||||
Ventures (IC) | http://susmafia.org/ | |||||||||||
Work Integrated | ||||||||||||
Learning programme Courses | ||||||||||||
Environmental Studies | BSDCB ZC225 | 84 | ||||||||||
(IC) | ||||||||||||
Courses for Phd Students | ||||||||||||
Statistical Computing(IC) | 2 | 2 | 1 | |||||||||
2 | 3 | 2 | 5 | |||||||||
Research Methodology | 10 | 10 | ||||||||||
Project Courses | ||||||||||||
Projects | 5 | 5 | 5 | 5 | 5 | 5 | 10 | 10 | 10 | |||
Practice School | 30 | 30 |
Training Event |
Context |
Venue |
Date |
Modeling impact of climate change (Hands-on training) |
2nd WCRP CORDEX Workshop |
ICIMOD, Kathmandu |
27-30th August, 2013 |
Addressing Climate Change Vulnerability through Climate Resilient and Adaptation |
Selected group of Range forest officers (RFOs) of Bangladesh Forest Department |
Indian Institute of Science |
30th August – 14thSeptember, 2015 |
Forest Carbon Baseline and Monitoring Methods |
Selected group of Assistant Conservator of Forest (ACFs) of Bangladesh Forest Department |
Indian Institute of Science |
30thSeptember - 14th Oct, 2015 |
REDD+ and CDM Project Development |
Selected group of Divisional Forest Officers (DFOs) of Bangladesh Forest Department |
Indian Institute of Science |
30thOctober – 14thNovember, 2015 |
Climate Change Projection & Impacts |
Selected group of Conservators of Forest (CFs) of Bangladesh Forest Department |
Indian Institute of Science |
1-10 March, 2016 |
Assessment of historical Climate Change & Projections: A capacity buidling Programme |
Selected group of scientists from each of the ASEAN member countries |
Indian Institute of Science |
22-28, February, 2016 |
Climate Data Assessment and Modeling: Analysis of Observed and Projected Climate |
Scientists from Environmental Management and Policy Research Institute, Bangalore; Govt of Karnataka |
Indian Institute of Science |
22-24 March, |
Assessments of Climate Change Impacts: Modelling and Capacity Building Programme |
Selected group of scientists from each of the ASEAN member countries |
Indian Institute of Science |
03-08 October, 2016 |
Semester 1 2023-24
Semester 2 2023-24
Course Instructor, School of Engineering and Applied Science, Ahmedabad University, India
Lab Instructor, Department of Engineering, University of Cambridge, UK
BIO F111 GENERAL BIOLOGY
BIO F211 BIOLOGICAL CHEMISTRY
BIO F244 INSTRU METHODS OF ANALYSIS
BIO F315 APPLIED NUTRITION & NUTRACEUTICALS
BIOT F424 FOOD BIOTECHNOLOGY
BIO F421 ENZYMOLOGY
BIOT F416 INTRODUCTION TO PHARMACEUTICAL BIOTECHNOLOGY
2005 - 2018: Involved in teaching of following courses in the collaborative programmes, M.S. (Medical Laboratory Technology), B.S.(Physician Assistant), B.S. (Optometry) and M.Phil (Optometry) that includes classroom lectures and laboratory practicals.
Course Title | Course No. | Units |
Basic Biochemistry -1 | OPTO ZC141 | 3 |
Basic Biochemistry - 2 | OPTO ZC162 | 3 |
Biological Chemistry | PATFL ZC141 | 3 |
Clinical Biochemistry | PATFL ZC152 | 5 |
Scientific Measurements | PATFL ZC132 | 3 |
Molecular Genetics | PATFL ZC282 | 3 |
Food & Nutrition in Health | MLTSN ZG611 | 4 |
Enzymology & Metabolism in Health | MLTSN ZG512 | 3 |
Few modules in the following courses: | ||
Recent Advances in Optometry | OPTO ZG644 | 4 |
Geriatric Optometry | OPTO ZC382 | 1 |
Ocular Physiology | OPTO ZC152 | 3 |
Technical Communication | MLTSN ZG659 | 4 |
Technical Report Writing | PATFL ZC261 | 3 |
2005 - 2018: Involved in mentoring, and evaluation of performance, of Final year First Degree and Higher Degree students pursuing structured Internship (PS-II) course, in research labs/industries at Chennai, Hyderabad, Bangalore & Mumbai.
Practice School-II BITS C412 / BITS C413 / BITS G639 20 Units
2013 - 2018: Involved in mentoring, and evaluation of performance, of Second year First Degree (Integrated and Dual) students pursuing structured Summer-Term Internship (PS-I) course at Medical Research Foundation - Sankara Nethralaya, Chennai.
Practice School-I BITS C221 / BITS C231 / BITS C241 5 Units
************************************************************************************
Graduated : Three (June 2013, June 2015, June 2016)
ICMR -SRF: 1 [2011-2014]; DBT-SRF: 1 [2012-2015]
Undergraduate Courses
Postgraduate Courses
To be Updated Soon
1
2
3
4
5
6
7
8
To be updated.
To be updated soon.
Feb 2015- March 2021 |
UGC-Assistant Professor, School of Computational & Integrative Sciences, Jawaharlal Nehru University, New Delhi, India |
Feb 2018- Feb 2019 |
Indo-US GETin Fellow (IUSSTF-DBT) at Joint BioEnergy Institute, Lawrence Berkeley National Laboratory and UC Berkeley, Berkeley, California, USA |
March 2014- Jan 2018 |
Ramalingaswami Fellow, Jawaharlal Nehru University, New Delhi, India |
May 2009- Feb 2014 |
Postdoctoral Researcher at Department of Plant Pathology and the Genome Centre, University of California, Davis, California, USA |
Courses
Courses Taught:
To be updated.
Semester 1, 2024-2025
Semester 1, 2023-2024
Semester 2, 2022-2023
Semester 1, 2022-2023
Semester 2, 2021-2022
Semester 1, 2021-2022
Semester 2, 2020-2021
Semester 1, 2020-2021
Semester 2, 2019-2020
Semester 1, 2019-2020
Course Code |
Course Title |
BITS F111 | Thermodynamics |
CHEM F110 | Chemistry Laboratory |
CHEM F111 | General Chemistry |
CHEM F211 | Physical Chemistry-I |
CHEM F213 | Physical Chemistry-II |
CHEM F242 | Chemical Experimentation-I |
CHEM F244 | Physical Chemistry-III |
CHEM F313 | Instrumental Methods of Analysis |
CHEM F320 | Introductory Computational Chemistry Laboratory |
CHEM F324 | Numerical Methods in Chemistry |
CHEM F341 | Chemical Experimentation-II |
CHEM F422 | Statistical Thermodynamics |
CHEM G553 | Advanced Physical Chemistry (Higher degree course) |
Courses from old curriculum:
|
|
CHEM C141 | Chemistry-I |
CHEM C142 | Chemistry-II |
CHEM C211 | Atomic and Molecular Structure |
CHEM C231 | Chemistry Project Laboratory |
CHEM C422 | Statistical Thermodynamics |
TA C211 | Measurement Techniques- |
The ultimate goal of our research is to synthesize novel multi-functional materials and device novel fabrication techniques with a focus to extract superior material performance for a given application. Developing such advanced materials will often require the use of nanomaterials that offer exciting properties. Our research encompasses several components (i.e., synthesis, assembly, characterization, test method development, materials formulation/processing, etc.) designed to give students a very well rounded engineering background. Broadly speaking, the work carried out in colloids and nanocomposites research group is interdisciplinary and at the interface of materials and chemical engineering. The following research projects are currently being undertaken in the CNC research group
We strongly encourage bright and "motivated" B.E/M.E/Ph.D. (Part time and Full Time) students to join the group for carrying out their projects. Please contact Dr. Krishna Etika for more details.
Courses:
10) Power Plant Engineering (ME C314 / ME F420 - BITS On Campus Course), also (Work Integrated Learning Program {WILP} Course PEHC ZC314 designed for engineers of Hindalco Company of Aditya Birla Group)
9) Heat Transfer (ME F311)
8) Applied Thermodynamics (ME F214)
7) Engines Motors & Mobility (ME F317) / IC Engines (ME F242)
6) Fluid Mechanics (ME F212)
5) Thermodynamics (BITS F111)
4) Transport Phenomena - II (ME C311), (POWAB ZC317 for Vedanta - Aditya Birla Group)
3) Power Generation (Work Integrated Learning Program Course {WILP} POWAB ZC322 / ZC313 for Aditya Birla Cement Company and as POWTP ZC322 /ZC313designed for engineers of TATA Power Company, POWJS ZC313 for engineers of JSW (Jindal South West) Energy Group)
2) Production Techniques-I (ME F243)
1) Structure and Properties of Materials (ES C242)
4) Started ME (Mechanical Engineering) program since August 2019.
3) Updated BE (Mechanical Engineering) curriculum. It was approved in Senate (14th August 2020) and implemented. Co-ordinated to update the thermal engineering related courses, and as HoD the overall co-ordinator of Goa campus while updating BE Mechanical Engineering Curriculum.
2) Worked as expert to develop the courses such as (i) Transport Phenomena and (ii) Advance I C Engines for the work integrated learning (WILP) program.
1) Participated in developing minor programs related to Robotics, Aeronautics program.
On-campus and Off-campus
S No |
Course Title |
Postgraduate or Undergraduate |
On-campus/ Off-campus |
1 |
Computational Transport Phenomena |
PG |
On-campus |
2 |
Environmental Management Systems |
PG |
|
3 |
Energy Integration Analysis |
PG |
|
4 |
Mathematical Methods in Chemical Engineering |
PG |
|
5 |
Advanced Separation Techniques |
PG |
|
6 |
Bioremediation & Biometallurgy |
PG |
|
7 |
Microbial Fermentation Technology |
PG |
|
8 |
Process Intensification |
PG |
|
9 |
Chemical Process Optimization |
PG |
|
10 |
Process Design Principles - I |
UG |
|
11 |
Selected Chemical Engineering Operations |
UG |
|
12 |
Process Design Decisions |
UG |
|
13 |
Separation Processes - I |
UG |
|
14 |
Separation Processes - II |
UG |
|
15 |
Numerical Methods for Chemical Engineers |
UG |
|
16 |
Heat Transfer Operations |
UG |
|
17 |
Mass Transfer Operations |
UG |
|
18 |
Chemical Process Technology |
UG |
|
19 |
Measurement Techniques – II |
UG |
|
20 |
Chemical Engineering Laboratory - I |
UG |
|
21 |
Modeling and Simulations in Chemical Engineering |
UG |
|
22 |
Chemical Process Calculations |
UG |
On-campus/ Off-campus |
23 |
Extractive Metallurgy |
UG |
Off-campus |
24 |
Environmental Pollution Control |
UG |
|
25 |
Process Equipment Design |
UG |
|
26 |
Process Design Principles |
UG |
Teaching Courses:
Higher Degree Courses
First Degree Courses
Tutor for MATH F112: Mathematics-II
Instructor-Incharge of MATH F112: Mathematics-II
MATH F215: Algebra-I
MATH F213: Discrete Mathematics
To be Updated Soon
At BITS Pilani
Feb.2015 – Feb 2023 Associate Professor Department of Mathematics, BITS Pilani, Pilani Campus, Rajasthan
Nov. 2008 – Jan. 2015 Assistant Professor Department of Mathematics, BITS Pilani, Pilani Campus, Rajasthan
July 2004 – Oct 2008 Lecturer AIM & ACT, Banasthali University, Rajasthan
August 2003-June 2004 Visiting Faculty Institute of Engineering and Technology, Khandari Campus Dr. B.R. Ambedkar University Agra.
Mechanical Engineering |
|
Course Code |
Course Title |
BITS F111 |
Thermodynamics |
DE G514 |
Fracture Mechanics |
ME C211 |
Applied Thermodynamics |
ME F110/TA C112 |
Workshop Practice |
ME F211/ES C221 |
Mechanics of Solids |
ME F215 |
Mechanical Engineering Lab |
ME F241/ME C312 |
Mechanical Engineering Design |
Manufacturing Systems Engineering |
|
Course Code |
Course Title |
MF F242 |
Manufacturing Management |
ME F320/F344 |
Engineering Optimization |
MF F418 |
Lean Manufacturing |
MM ZG542 |
Just-in-Time Manufacturing (WILP) |
QM ZG536 | Design of Experiments (WILP) |
Mathematics |
|
Course Code |
Course Title |
AAOC C222 |
Optimization |
AAOC C111 |
Probability and Statistics |
BIO G 525 - Environmental Biotechnology & Waste Management
Course Description : Application of biotechnology to the management of environmental problems. Biotechnology for enhanced plant and animal production through biological insecticides, herbicides resistance, mineral cycling, conservation of genetic resources and biological nitrogen fixation. Use of biotechnological processes for pollution control, bioremediation of toxicants and treatment of domestic and industrial wastes. Ethical issues related with the release of genetically modified organism.
BIOF 216 - Water, Sanitation and Solid Waste Management
Course Description: Sanitation, Water and Solid Waste for Development course will consist of four modules Municipal Solid Waste Management in Developing Countries This module provides an overview of the municipal solid waste management situation in developing countries. Planning and Design of Sanitation Systems and Technologies This module deals with integrated sanitation planning, dealing with citywide planning as well as with planning for specific contexts such as informal settlements. Introduction to Household Water Treatment and Safe Storage In this module students will learn about the most important water treatment methods at household level, successful implementation strategies and about assessing the impact of HWTS.Introduction to Faecal sludge management This module deals with what faecal sludge is and introduces students to the engineering fundamentals and required information for the design and selection of technologies.
BIO F217 - Laboratory for Water, Sanitation and Solid Waste Management
Course Description: The basic science module is a 1-week on-site training which prepares the student for the capstone project. Student will learn or get a refresher training on how research works including practical skills on how to conduct capstone project. Apart from lab experiments which students will be conducting, they are also expected to do a capstone project. Capstone project follows a progression of modules: a) define topic; b) compile required reading, c) select site, d) write capstone proposal (2 pages), e) design field research and survey development, f) carry out field research, g) analyze data, h) write-up, i) submit project report (max. 15 pages).
SAN G511 – Sanitation Technology
Course Description: Inadequate sanitation is responsible for some 840,000 deaths, every year worldwide. For India alone, a recent study estimated that the total economic impact of inadequate sanitation amounts to Rs. 2.44 trillion (US$53.8 billion) a year —this was the equivalent of 6.4 percent of India’s GDP in 2006. This means per person across India an annual impact of Rs. 2,180 (US$48). Challenges arise from the wide range of options available and the differing environments and conditions to which each is suited. Experience shows that it is important to allow local involvement in the choice of solutions, but with a full grasp of the requirements of each option. In this course the full range of technological options will be discussed in detail.
SAN G515 – Emergency Sanitation and Leadership
Course Description: The Sanitation Emergency module has been developed in cooperation with major humanitarian organizations with the aim to enable participants to understand sanitation in a humanitarian context. It focuses on interdisciplinary humanitarian action including humanitarian principles and on how to work within the framework and coordination of humanitarian assistance. The stages of humanitarian aid, stakeholders in the international relief system, and their respective mandates will be discussed in this module, as well as the appropriate sanitation options. At the end of this module students will be able to plan, implement and monitor a sanitation response to an emergency situation. The Leadership module helps prepare professionals by teaching them how to productively influence their sector, workplace, and communities through an increased awareness of their personal leadership capabilities and the development of inter-personal communication skills. Through a series of practical and reflective group and individual exercises, as well as dedicated one-on-one coaching sessions, participants will gain an intimate understanding of the leaders they can be and develop their way forward to becoming future sanitation leaders.
2010-11
First Semester : 1) MATH C191 (Mathematics I), 2) AAOC C221 (Graphs and Networks), 3) MATH ZC161 (Engineering Mathematics I)
Second Semester : 1) AAOC C111 (Probability and Statistics), 2) MATH C352 (Differential Geoemtry)
2011-12 :
First Semester : 1) MATH F111 (Mathematics I), 2) AAOC C221 (Graphs and Networks)
Second Semester : 1) MATH F113 (Probability and Statistics), 2) MATH C352 (Differential Geometry),
3) AAOC ZC111 (Probability and Statistics)
2012-13 :
First Semester :1) MATH F111 (Mathematics I), 2) AAOC C221 (Graphs and Networks)
Second Semester : 1) MATH F113 (Probability and Statistics), 2) MATH C352 (Differential Geometry)
2013-14 :
First Semester : 1) MATH F111 (Mathematics I), 2) MATH ZC222 (Discrete Structure for Computer Science)
Second Semester : 1) MATH F113 (Probability and Statistics), 2) MATH F342 (Differential Geometry)
2014-15 :
First Semester : 1) MATH F111 (Mathematics I), 2) MATH F215 (Algebra I)
Second Semester: 1) MATH F113 (Probability and Statistics), 2) MATH F342 (Differential Geometry)
August 2024 to December 2024 - Main Currents of Modern History
Undergraduate
Graduate
Designation |
Institution Period |
Period |
Professor |
Birla Institute of Technology and Sciences, Pilani |
1st March 2023 onwards |
Associate Professor |
Birla Institute of Technology and Sciences, Pilani |
1st July 2018-28th February 2023 |
Assistant Professor |
Birla Institute of Technology and Sciences, Pilani |
23rd Dec. 2006 -30th June 2018 |
Supply Chain Management |
On-campus |
Operations management |
On-campus |
Machine tool engineering |
(On-Campus) |
Supply chain management |
(On-Campus) |
Sustainable manufacturing |
(Off-Campus) |
Mechanics of solids |
(On-Campus) |
Manufacturing processes |
(On-campus) |
ECON F211: Principles of Economics
ECON F244: Economic Growth and Development
ECON F313: Issues in Economic Development
ECON F214: Economic Environment of Business
MBAZC 416: Managerial Economics
Additionally, I undertake a few courses such as Advance Topics in Economic Development, Applied Econometrics, Applied Spatial Econometrics, Research Practice, and Development & Use of Computer Software for Ph.D. students.
Courses Taught
Undergraduate
Post Graduate
To be updated.
Current Semester Courses
World Class Manufacturing (MSE G512)
Machine Tool Engineering (ME G532)
Machine Tool Engineering (DELT ZG532) (Off Campus Course)
I Semester
II Semester
2012-13
I Semester
II Semester
2011-12
I Semester
II Semester
2010-11
I Semester
II Semester
World Class Manufacturing
Machine Tool Engineering
Workshop Practice
Engineering Materials
Measurement Techniques-II
Structure and Properties of Materials
Transport Phenomena-I
Production Techniques
Engineering Graphics
Mechatronics
Mechanism and Robotics
Off-Campus Courses
Quality Control Assurance and Reliability
Engineering Materials
JIT Manufacturing
Total Quality Management
Maintenance and Safety
Materials Management
Energy Management
Principles of Management
Project Management
Manufacturing Processes
Summer Term 2023-24
BITS F232 Foundations of Data Structure and Algorithms (Lecture + Practical)
Second Semester 2023-24
BITS F232 Foundations of Data Structure and Algorithms (Practical)
CS F364 Design and Analysis of Algorithms (Lecture)
First Semester 2023-24
IS F311 Computer Graphics (Lecture)
CS F214 Logic in Computer Science (Tutorials)
Second Semester 2022-23
BITS F232 Foundations of Data Structure and Algorithms (Practical)
CS F364 Design and Analysis of Algorithms (Lecture + Tutorial)
BCS ZC230-L1 Linear Algebra and Optimization (Lecture)
First Semester 2022-23
IS F311 Computer Graphics (Lecture)
CS F214 Logic in Computer Science (Lecture + Tutorial)
Second Semester 2021-22
CS F364 Design and Analysis of Algorithms (Lecture)
First Semester 2021-22
CS F111 Computer Programming (Lecture)
CS F214 Logic in Computer Science (Tutorial)
CS G526 Advanced Algorithms and Complexity (Lecture + Practicals)
Second Semester 2020-21
CS F364 Design and Analysis of Algorithms (Lecture)
IS F311 Computer Graphics (Lecture)
First Semester 2021-22
CS F214 Logic in Computer Science (Tutorial)
CS F402 Computational Geometry (Lecture)
To be Updated Soon
1st Semester 2018-2019
Course handout
Learning resources for EG
Lab assignment Problem sets A1-A3
Introduction to the course (Video)
Video on steps for setting AutoCAD 2014 for EG course
Demo videos for starting AutoCAD commands for Engineering Graphics (playlist)
|
Starting up Initial settings Commands: Line, arc |
commands: ctr arc (clockwise arc), circle, ellipse,polygon, point, pdmode, pd size, end, per, mid, int,node, |
|
commands: Center, erase, trim, extend, undo, dtext, hatch, copy, move, |
|
commands: rotate, mirror, array, change, |
|
|
Commands: pline, pedit (fit spline, curve), offset, divide, measure, explode
Dimension command and sub-commands |
Learning material on orthographic projections(playlist)
video 1 video 2 video 3 video 4 video 5 video 6
Learning material on Isometric drawings
Studio recorded video lecture-Isometric 1
Studio recorded video lecture-Isometric 2
Isometric drawings without curvature (playlist)
video 2(quick and short step by step procedure without voice )
Isometric drawings with curvature (playlist)
Video 5a Video 5b (simple object with curvature)
video 6a video 6b (Complex object with curvature)
video 7 (quick and short step by step procedure without voice)
video 8 (quick and short step by step procedure without voice)
Learning material on Projections of lines
Problems demonstrating fundamental concepts of projections of lines (playlist)
Problems demonstrating concepts on traces of lines (playlist)
Trapezoid method for line in PP(or single projector) (playlist)
Learning material on Projections of Planes(playlist)
starting video video 1 video 2 video 3
Learning material on Projections of Solids (playlist)
Studio recorded video lecture-Demo of Solids
Studio recorded video lecture-Projections of Solids 1
Studio recorded video lecture-Projections of Solids 2
Studio recorded video lecture-Projections of Solids 3
Learning material on Sections of Solids (Playlist)
Studio recorded video lecture-Sections of Solids
Identifying the location of section plane for a given true shape in a cone section (video 3)
Shape of water surface in tilted tumbler using concept on sections of solids
True shape given identification of section plane (sketching solution steps)
Learning material on Development of Solids (playlist )
Studio recorded video lecture-Development of the surfaces of Solids
Development of a cone(video 1)
Courses
Semester wise details of courses taught
Year |
Semester I |
Semester II |
2023-24 |
BITS F111 Engineering Graphics(L T P) I/C ME F316 Manufacturing Management I/C |
BITS F111 Engineering Graphics(L T P) I QM ZG536 Design of Experiments (L) WILP
|
2022-23 |
QM ZG528 Reliability Engineering (WILP)I/C |
QM ZG528 Reliability Engineering (WILP)I/C BITS F111 Engineering Graphics(L T P) I/C |
2021-22 |
ME F316 Manufacturing Management BITS F111 Engineering Graphics (T P integrated) |
ME F443 Quality Control Assurance and Reliability (L I/C) |
2020-21 |
BITS F111 Engineering Graphics ( 3 hour lab with integrated tutorial) ME F443 Quality Control Assurance and Reliability (L I/C) QM ZG531 Statistical Quality Control (WILP) |
QM ZG531 Statistical Quality Control (WILP) ME F344 Engineering Optimization (L T ) ME F243 Production Techniques-I (P)/ME F219 Manufacturing Processes (P)
|
2019-20 |
BITS F111 Engineering Graphics ( 3 hour lab with integrated tutorial) ME F443 Quality Control Assurance and Reliability (L I/C) MBA ZG531 Statistical Quality Control/ QM ZG531 Statistical Quality Control (WILP) |
ME F344 Engineering Optimization (L T ) BITS F111 Engineering Graphics ( 3 hour lab with integrated tutorial)
|
2018-19 |
ME F412 Production Planning and Control (L I/C) BITS F111 Engineering Graphics (T)
|
ME F344 Engineering Optimization MBA ZG531 Statistical Quality Control/ QM ZG531 Statistical Quality Control (WILP) BITS F111 Engineering Graphics (T P) |
2017-18 |
BITS F111 Engineering Graphics (L T P) ME F443 Quality Control Assurance and Reliability (L I/C) BITS F366/BITS F367 Lab Project I/C |
BITS F111 Engineering Graphics (T) ME F412 Production Planning and Control (L I/C) PEAB ZC414 Production Planning and Control (under WILP) BITS F366/BITS F367 Lab Project I/C |
2016-2017 |
BITS F111 Engineering Graphics (L T P I/C) |
BITS F111 Engineering Graphics (L T P I/C) |
2015-2016 |
BITS F111 Engineering Graphics (L T P I/C) |
BITS F111 Engineering Graphics (L T P I/C) ME F412 Production Planning and Control (L I/C) ME F313 Production Techniques II (Prac) |
2014-2015 |
BITS F111 Engineering Graphics (T) ME F443 QCAR (L I/C) ME F243 Production Techniques-I (L T P I/C) |
BITS F111 Engineering Graphics (L T P I/C) ME F332 Prime Movers and Fluid Machines (L P I/C) |
Courses earlier taught at BITS
ME F243 Production Techniques I
POWTP ZC431 Maintenance and Safety
ET ZC412 Production Planning and Control
ME C412 Production Planning and Control
POWTP ZC481 Plant Layout and Design
POWTP ZC312 Quality Control, Assurance and Reliability
ME C332/ POWTP ZC311 Prime Movers and Fluid Machines
ES C112/BITS F111Thermodynamics
TA C112 Workshop Practice
BITS F111/TA C111 Engineering Graphics
TA C222 Measurement Techniques II
Undergraduate Courses
Project courses
Postgraduate courses
Main Currents of Modern History
Gandhian Thoughts
Modern Political Concepts
Main Trends in Indian History
Contemporary India
Study in Advanced Topics (5 units):
Readings in Intellectual History (2019-20 first semester)
Gender, Politics, History (2012-13 first semester)
Research Project I
Historiography and Historical Methods (2020-21 first semester)
Research Project II (6 units):
Gender, Sexuality, Identity (2013-14 first semester)
Research Practice (5 units):
Modernity: Texts in contexts (2017-18 first semester)
Toward a Study of Myths (2015-16 first semester)
Classical Rhetoric and Modern Political Communication (2014-15 first semester)
Cultural History (2013-14 second semester)
Advanced Projects:
Key Concepts and Texts in Modern Politics (2020-21 first semester)
Human Rights: Theory, Practice, Issues (2019-20 second semester)
Reading Course
Select Concepts and Texts in Modern Politics (2021-22 second)
Gender and Language (2021-22 first)
Courses Taught for Work Integrated Learning (WILP) Program
Digital Content Development for WILP Course
Lab Development
Year & Semester |
Course Title |
Course Code |
2019 - 2020, Semester I | Operating Systems | CS F372 |
2018 - 2019, Semester II | Real Time Systems | BITS G553 / CS F444 |
2018 - 2019, Semester II | Data Storage Technologies and Networks | CS F446 |
2018 - 2019, Semester I | Data Storage Technologies and Networks | CS F446 |
2017 - 2018, Semester II | Computer Programming | CS F111 |
2017 - 2018, Semester I | Computer Architecture | CS F342 |
2017 - 2018, Semester I | Distributed Data Systems | CS G554 |
2016 - 2017, Semester II | Advanced Computer Architecture | CS G524 |
2016 - 2017, Semester I | Computer Architecture | CS F342 |
2016 - 2017, Semester I | Advanced Operating Systems | CS G623 |
2015 - 2016, Semester II | Advanced Computer Architecture | CS G524 |
2015 - 2016, Semester II |
Data Storage Technologies and Networks | CS F446 |
2015 - 2016, Semester I | Advanced Operating Systems | CS G623 |
2015 - 2016, Semester I | Computer Architecture | CS F342 |
2014 - 2015, Semester II | Advanced Computer Architecture | CS G524 |
2014 - 2015, Semester II |
Data Storage Technologies and Networks | CS F446 |
2014 - 2015, Semester I | Advanced Operating Systems | CS G623 |
2014 - 2015, Semester I | Computer Architecture | CS F342 |
2013 - 2014, Semester II |
Data Storage Technologies and Networks | CS C446 / IS C446 / CS F446 |
2013 - 2014, Semester II | Computer Programming | CS F111 |
2013 - 2014, Semester I | Software for Embedded Systems | CS G523 |
2013 - 2014, Semester I | Computer Architecture | CS F342 |
2012 - 2013, Semester II | Computer Organization | IS F241 |
2012 - 2013, Semester II | Software for Embedded Systems | CS G523 / SS G523 |
2012 - 2013, Semester I | Operating Systems | CS C372 / IS C362 |
2012 - 2013, Semester I | Software for Embedded Systems | CS G523 / SS G523 |
2012 - 2013, SUMMER | Systems Programming | WILP |
2011 - 2012, Semester II |
Advanced Computer Organization | CS C342 |
2011 - 2012, Semester II |
Data Storage Technologies and Networks | CS C446 / IS C446 |
2011 - 2012, Semester I |
Operating Systems | CS C372 / IS C362 |
2011 - 2012, Semester I |
Data Storage Technologies and Networks | CS C446 / IS C446 |
2010 - 2011, Semester II |
Operating Systems - WILP | IS ZC362 |
2010 - 2011, Semester II |
Computer Programming - I | TA C162 |
2010 - 2011, Semester I |
Operating Systems | CS C372 / IS C362 |
2010 - 2011, Semester I |
Operating Systems - WILP | IS ZC362 |
2010 - 2011, Semester I |
Computer Organization and Architecture | IS C351 |
2009 - 2010, Semester II |
Advanced Computer Organization | CS C342 |
2009 - 2010, Semester II |
Computer Programming - I | TA C162 |
2009 - 2010, Semester I | Real - Time Systems | BITS G553 |
2009 - 2010, Semester I | Computer Programming - II | TA C252 |
2008 - 2009, Semester II | Advanced Computer Organization | CS C342 |
2008 - 2009, Semester II | Advanced Architecture and Performance Evaluation | CS G562 |
2008 - 2009, Semester I | Operating Systems | CS C372 |
2008 - 2009, Semester I | Computer Programming - II | TA C252 |
2007 - 2008, Semester II | Advanced Computer Organization | CS C342 |
2007 - 2008, Semester II | Parallel Computing | CS C422 / IS C422 |
2007 - 2008, Semester I | Operating Systems | CS C372 |
2007 - 2008, Semester I | Computer Programming - II | TA C252 |
2006 - 2007, Semester II | Operating Systems | IS C362 |
2006 - 2007, Semester II | Computer Programming - I | TA C162 |
2006 - 2007, Semester I | Operating Systems | CS C372 |
2006 - 2007, Semester I | Computer Programming - II | TA C252 |
2005 - 2006, Semester II | Operating Systems | IS C362 |
2005 - 2006, Semester II | Computer Programming - I | TA C162 |
2005 - 2006, Semester I | Operating Systems | CS C372 |
2005 - 2006, Semester I | Real - time Systems | BITS G553 |
2004 - 2005, Semester II | Software for Embedded Systems - WILP | IS ZC424 |
2004 - 2005, Semester II | Software for Embedded Systems | CS C424 / IS C424 |
2004 - 2005, Semester I | Operating Systems | CS C372 |
2004 - 2005, Semester I | Operating Systems - WILP | IS ZC362 |
2003 - 2004, Semester II | Operating Systems | IS C362 |
2003 - 2004, Semester II | Computer Programming - I | TA C162 |
2003 - 2004, Semester I | Data Structure & Algorithms Lab | CS C342L |
2003 - 2004, Semester I | Operating Systems | CS C372 |
Molecular Pharmacology | M.Pharmacy |
Advance Pharmacology | M. Pharmacy |
Immunopharmacology | M. Pharmacy |
Pharmacology I | B.Pharmacy |
Pharmacology II | B. Pharmacy |
Pathophysiology | B. Pharmacy |
BITS BIOCON certificate program in Quality control Microbiology | WILP program |
Human anatomy and physiology | WILP program |
Semester II (2023-2024)
Semester I (2023-2024)
Semester II (2012-2013)
Semester I (2012-2013)
Semester I (2011-2012)
Study Oriented Projects (SOP)
Lab Oriented Projects (LOP)
2. Structural and optical analysis of standard titanium dioxide sample
3. TiO2 nanoparticle, synthesis and characterization
4. Preparation methods of zinc oxide
5. Photocatalysis under UV and preparation methods of zinc oxide
6. Setting up of a gas sensing facility and testing with semiconductor structures
7. Study on CZTS solar cell absorbers
8. Nanoscale metal oxides for gas sensing
9. Metal oxide nanostructures and devices
10. Exploring multifunctional metal oxides
11. Optoelectronic Properties of Zinc Oxide Nanostructures
12. Cu doped ZnO nanoparticles
13. Deposition and studies on some metal oxide and metal sulfide thin films
14. Metal oxide nanostructures for optoelectronic applications
15. Preparation & Studies on Metal Sulphide Thin Films
16. Designing NiO nanoparticles for sprintronic applications (Design Oriented Project, DOP)
17. Fabrication of MoS2 Thin Films
18. In2S3 Nanostructures-Optoelectronic applications
19. Preparation & Studies on Metal Sulphide Thin Films (DOP)
20. Transport properties of In2S3 - MoS2 hetero structures
Off- Campus thesis
Gene Therapy, targeted brain delivery for glioma
S. No. |
Name of scholar |
Research Topic |
Year |
Role |
Present Status |
1 |
Sorabh Sharma |
Exploring the Link between Insulin Resistance and Neurodegenerative Disorders and its Possible Mechanism(s) |
- |
Supervisor |
Research Trainee and PDF, University of Victoria, Canada |
2 |
R. Sruthi |
Investigating the Molecular Mechanisms Involved in Neuroprotective Effect of Remote Limb Ischemic Post Conditioning against Cerebral Ischemic Reperfusion Injury and Associated Cognitive Deficits |
- |
Supervisor |
Post-Doctoral fellow, Washington University |
3 |
Sarathlal K C |
Exploring the possible effects, mechanism of diet |
2017 |
Supervisor |
Thesis-Submitted |
4 |
Violina Kakoty |
Exploring the neuroprotective potential of autophagy |
2017 |
Supervisor |
Thesis-Submitted |
5 |
Geetika wadhwa |
Development and evaluation of a nanoparticulate co-delivery system for the management of |
2017 |
Supervisor |
Ph.D. on going |
6 |
Rajesh Pardhan |
Development and evaluation of drug loaded nano-formulation |
2018 |
Supervisor |
Ph.D. on going |
7 |
Jayant Bhardwaj |
Studying the epigenetic mechanism (s) link for modulation of immunity |
2020 |
Supervisor |
Ph.D. on going |
8 |
Shobha Kumari |
Studying the neuroprotective potential of epigenetic modulator alone and in combination with neuro/……… |
2020 |
Supervisor |
Ph.D. on going |
9 |
Rajiv Ranjan |
Design and development of GaN FET for Non Invasive detection ….. |
2019 |
Co-Supervisor |
Ph. D. on going |
10 |
Puja Gautam |
Study of alternative splicing (AS) in relation to gonadotropic releasing hormone (GnRH) gen,…… |
2021 |
Co-Supervisor |
Ph. D. on going |
11 |
Aastha Mittal |
Development, Characterization, and Evaluation of Anticancer Drug Loaded |
2017 |
Co-Supervisor |
Ph. D. on going |
M. Pharm
Current Semester
I am teaching the following courses this semester [ First semester 2022-23]
Combinatorics is a fascinating but very broad subject. This makes it hard to classify. The blueprint of the course MATH F421 is the following: It starts with basic definitions and motivations by picking problems of perfect cover, Latin squares and magic squares/cube (SAIM algorithm). Then it will be covering advanced theory of permutations and combinations, counting principles, theory of partitions, special counting sequences, system of distinct representatives, combinatorial design and enumerations of graphs. For MATH F421, the Text Book: Richard A. Brualdi, Introductory Combinatorics, Pearson Education 5th Edition 2020.
MEL G621: VLSI Deisgn (Compulsory Discipline Course)
EEE/INSTR F313: Analog & Digital VLSI Design(Compulsory Discipline Course)
EEE/INSTR F214: Electronic Devices (Compulsory Discipline Course)
MEL G624: Advance VLSI Architecture (Elective)
EEE/INSTR F313: Analog & Digital VLSI Design
EEE/INSTR/CS F215: Digital Electronics
EEE/INSTR/CS F215: Microprocessor Programming & Interfacing
EEE/INSTR F244 : Microelectronics Circuit
EEE/INSTR F341: Analog Electronics
EEE/INSTR F214: Electronic Devices
EEE/INSTR F111: Electrical Science
EEE/INSTR F245 : Control Systems
EEE/INSTR F376/F377: Design Project
EEE/INSTR F266: Study Project
EEE F491: Special Project
EEE/INSTR F366/F367: Laboratory Project
BITS F423T/F421T/C441T: First Degree Thesis
MEL G621: VLSI Deisgn
MEL G642: VLSI Architecture
EEE G625: Advanced Analog & Mixed Signal Design
BITS G629: Higher Degree Dissertation
BITS G540: Research Practice
EEE G612 | Coding Theory & Practice | Instructor In-charge |
BITS G554 | Data Compression | Instructor In-charge |
EEE G556 | DSP based Electrical Drives | Instructor In-charge |
EEE F414 | Digital Signal Processing | Instructor In-charge |
INSTR F343 |
Industrial Instrumentation & Control |
Instructor In-charge |
EEE F435 |
Digital Image Processing
|
Instructor In-charge |
INSTR C355 |
Electronic Instruments and Instrumentation Technology
|
Instructor In-charge |
TA C111 |
Measurement Technique (MT-II)
|
Instructor In-charge |
ES C241 |
Electrical Science I
|
Instructor In-charge |
TOC C235 |
Electrical and Electronics Practice
|
Instructor In-charge |
ENGG C111 |
Electrical & Electronics Technology
|
Instructor In-charge |
EEE C364/ INSTR C364 |
Analog Electronics |
Instructor In-charge |
AAOC C32 |
Control System |
Instructor |
EEE C272 |
Circuits and Signals
|
Instructor (Tutorial) |
EEE C414 |
Telecommunication Switching Systems and Networks
|
Instructor (Tutorial) |
CS/EEE/INSTR C391 |
Digital Electronics and Computer organization
|
Instructor (Lab+Tutorial) |
INSTR C381 |
Transducers and Measurement system |
Instructor (Tutorial) |
ES C252 |
Basic Electronics
|
Instructor |
ES C231 |
Circuit Theory
|
Instructor |
Teaching:
Research:
May 1996 - June 1999: Assistant Manager, EMA India Limited, Kanpur
May 1996 - June 1999: Assistant Manager, EMA India Limited, Kanpur
EMA INDIA LIMITED was founded and signed a joint venture agreement with M/s. EMA Electromaschinen Schultz GmbH & Co KG, Germany, to manufacture State of Art Induction Heating Equipments in the year 1971. With the pioneering efforts of introducing these equipments for the first time in India, today EMA INDIA LIMITED has achieved the distinction of being a market leader of this field. EMA is an ISO 9001-2000 certified company following TQM practices at par with International Standards.
EMA manufactures both Medium Frequency and High Frequency Equipments in power ratings from 1 Kw to 1130 Kw and frequencies ranging from 500 Hz to 450 KHz for every possible application. EMA can design and manufacture custom-built Machine for applications like Induction Hardening, Partial Heating, Annealing, Tempering, Softening, Brazing, Heating for Shrink Fitting and Billet Heating.
To keep pace with the latest technological trend, EMA has switched over from Motor Generators to Solid State Generators with Thyristors and the latest being IGBT Transistorised Convertors.
Commencing with the Conventional Relay Controls for the machine operations, EMA has established its supremacy by introducing PLC’s and CNC’s for the equipment controls with technological advancements.
On the export front, EMA has established itself as the pioneer in Export of Induction Heating and Hardening Equipments and Accessories to Germany, USA, Iran, Turkey, Brazil, Indonesia, UK, UAE.
EEE C443 | Analog and Digital VLSI Design |
EEE C424 | Microelectronic Circuits |
INSTR C313 | Microelectronic Circuits |
MEL G641 | Analog IC Design |
MEL G623 | Advanced VLSI Design |
EEE C381 | Electronic Devices and Integrated circuits |
EEE C364 | Analog Electronics |
ES C252 | Basic Electronics ( equivalent Electrical Science-I) |
ES C231 | Circuit Theory ( equivalent Electrical Science-II) |
EEE C272 | Circuits and Signals |
TEACHER---I am a passionate teacher always interested in working with/ or training fresh minds with logical thinking. Teaching, gives me opportunities to engage young minds to be a good team member as well as a competent professionals. I am always interested in linking my class room teaching with concepts of other courses and practical aspects of the subject. My aim is always to build, in my students, a strong foundation of fundamental concepts through continuous emphasis on them with examples solved , in real time, on black board/ slides/ tablet (in online mode) using animations. Fundamentals. I strongly feel that this strong foundation prepares the students for accepting the real life challenges. It gives me immense pleasure if students perform well in their higher studies/ and profession. The energetic freshness of my students drives me immensely to improve my teaching abilities continuously.
New courses introduced and Developed At BITS, Pilani
Till Summer Term 2021-22 :
Courses Taught:
Sr No |
Course |
No. of Times |
01 |
MEL641 CAD for IC design (IC) (Taught four times in tele-presence system and delivered from Pilani campus ) |
19 |
02 |
MEL641 CAD for IC design (L) |
01 |
03 |
MEL/EEE/CS G531 Testable design and fault tolerant computing (L) |
02 |
04 |
MEL G626 VLSI Test and Testability (IC) (Taught five times in tele-presence system delivered from Pilani campus, an higher degree elective for ME Microelectronics and ME embedded system with 40+ enrollment from each campus) |
09 |
05 |
MEL G625 Advanced Analog Mixed Signal Design (IC) |
03 |
06 |
EEE C364/ INSTR C364 Analog Electronics (L=07 times) + (IC one time) |
08 |
07 |
EEE C364/ INSTR C364 Analog Electronics (T) |
03 |
08 |
EEE/INSTR C424 Microelectronic Circuits (IC) |
01 |
09 |
EEE/INSTR C424 Microelectronic Circuits (T) |
05 |
10 |
ES C262 Digital Electronics and Microprocessors (L) |
01 |
11 |
EEE/INSTR C381 Electronic Devices and Integrated Circuits (L) |
02 |
12 |
EEE/INSTR C381 Electronic Devices and Integrated Circuits (T) |
01 |
13 |
CS/EEE/INTR/C263 Microprocessors Programming (P) |
01 |
14 |
CS/EEE/INSTR C391 Digital Electronics and Computer Organization (T) |
02 |
15 |
CS/EEE/INSTR C391 Digital Electronics and Computer Organization (P) |
02 |
16 |
EEE C443/EEE F313 Analog and Digital VLSI Design (IC) |
01 |
17 |
EEE C443/EEE F313 Analog and Digital VLSI Design (T) |
02 |
18 |
EEE F111 Electrical Science (Lecture =5 times , Lecture with IC = 5 times) |
10 |
19 |
EEE F111 Electrical Science (T) |
04 |
20 |
EEE F341/INSTR F341 Analog Electronics (T) |
01 |
21 |
EEE/INSTR F244 Microelectronic Circuits (L) (Lecture =2 times , Lecture with IC = 1 times) |
03 |
22 |
EEE/INSTR F244 Microelectronic Circuits (T) |
03 |
23 |
EEE F214/INSTR F214 Electronic Devices (T) |
02 |
24 |
EEE G543 Power Device Microelectronics and Selection (IC) |
01 |
25 |
BITS G540 Research Practice total students guided till date |
50 |
FDTS/HDTS/Study in Advance Topics/ Research Practice: (After 2010)
Sr. No. |
Course |
No. of students 2010 -2021-22(s2) |
01 |
BITS C421T/ BITS C422T First Degree Thesis |
36 |
02 |
BITS C629T |
03 |
03 |
BITS G513 Study in Advanced Topics |
01 |
04 |
BITS G540 Research Practice |
55 |
* LP/SP/DP: 99
*ES ZG628T Dissertation (Mentor, No. of students:45)
Before 2010:
Sr. No. |
Course |
No. of students 2002-2010 (S2) |
01 |
BITS C421T/ BITS C422T First Degree Thesis |
03 |
02 |
BITS G621 Professional Practice -II |
15 |
03 |
LOP/COP/SOP |
52 |
Project type courses: Lab Project/Study Projects/ Design Project/ Special Project: 150 +
PS-1 Course Instructor:
PS-1 instructor for 10 time
Engagement in each semester and Summer term:
2001-02 (S2)
MEL641 CAD for IC design (L)
2001-02 (ST)
BITS C221: PS-1, SPB Ltd. Erode
20 May 2002 to 17 July 2002
2002-03 (S1)
MELG621 VLSI Design (L)
EEE/INSTR C381 Electronic Devices and Integrated Circuits (T)
2002-03 (S2)
MEL641 CAD for IC design (IC)
ES C262 Digital Electronics and Microprocessors (L)
2003-04 (S1)
EEE/INSTR C424 Microelectronic Circuits (T)
MEL/EEE/CS G531 Testable design and fault tolerant computing (L)
2003-04 (S2)
EEE C364/ INSTR C364 Analog Electronics (L)
EEE C443/EEE F313 Analog and Digital VLSI Design (T)
CS/EEE/INTR/C263 Microprocessors Programming (P)
2004-05 (S1)
MEL/EEE/CS G531 Testable design and fault tolerant computing (L)
EEE C424 Microelectronic Circuits (T)
CS/EEE/INSTR C391 Digital Electronics and Computer Organization (P)
BITS C421 FDTS (No. of Students: 1)
BITS G621 Professional Practice II
(No. of Students: 2)
BITS C313 LAB ORIENTED PROJECT
(No. of students:3)
2004-05 (S2)
MEL641 CAD for IC design (IC)
EEE C364/ INSTR C364 Analog Electronics (L)
BITS C313 LAB ORIENTED PROJECT (No. of students:5)
BITS C331 COMPUTER PROJECT (No. of students:3)
BITS C323 STUDY ORIENTED PROJECT (No. of students:1)
2005-06 (S1)
EEE/INSTR C424 Microelectronic Circuits (T)
EEE/INSTR C381 Electronic Devices and Integrated Circuits (L)
BITS G621 Professional Practice II (No. of Students: 2)
BITS C313 LAB ORIENTED PROJECT (No. of students:2)
BITS C331 COMPUTER PROJECT (No. of students:2)
BITS C323 STUDY ORIENTED PROJECT (No. of students:1)
2005-06 (S2)
MEL641 CAD for IC design (IC)
EEE C364/ INSTR C364 Analog Electronics (L)
BITS C313 LAB ORIENTED PROJECT (No. of students:4)
BITS C331 COMPUTER PROJECT (No. of students:2)
BITS C323 STUDY ORIENTED PROJECT (No. of students:1)
2006-07 (S1)
MEL G626 VLSI Test and Testability (IC)
EEE C443/EEE F313 Analog and Digital VLSI Design (T)
BITS C421 FDTS (No. of Students: 2)
BITS G621 Professional Practice II (No. of Students: 2)
BITS C313 LAB ORIENTED PROJECT (No. of Students: 6)
2006-07 (S2)
MEL641 CAD for IC design (IC)
EEE C364/ INSTR C364 Analog Electronics (L)
BITS G621 Professional Practice II (No. of Students: 2)
BITS C313 LAB ORIENTED PROJECT (No. of students:5)
2006-07 (ST)
BITS C221:PS-1 SPM Ltd. Sirpur, Kagaznagar
22 May 2007 to 18 July 207
2007-08 (S1)
MEL G625 Advanced Analog Mixed Signal Design (IC)
EEE C443/EEE F313 Analog and Digital VLSI Design (L)
BITS G621 Professional Practice II (No. of Students: 1)
BITS C323 STUDY ORIENTED PROJECT (No. of students:1)
BITS C313 LAB ORIENTED PROJECT (No. of students:3)
2007-08 (S2)
MEL641 CAD for IC design (IC)
EEE C364/ INSTR C364 Analog Electronics (L)
BITS C313 LAB ORIENTED PROJECT (No. of students:5)
BITS C331 COMPUTER PROJECT (No. of students:1)
2008-09 (S1)
MEL G625 Advanced Analog Mixed Signal Design (IC)
ES C241 Electrical Sciences I (T)
BITS G621 Professional Practice II (No. of Students: 1)
BITS C323 STUDY ORIENTED PROJECT (No. of students:1)
BITS C313 LAB ORIENTED PROJECT (No. of students:3)
2008-09 (S2)
MEL641 CAD for IC design (IC)
EEE C364/ INSTR C364 Analog Electronics (L)
BITS G621 Professional Practice II (No. of Students: 2)
BITS C323 STUDY ORIENTED PROJECT (No. of students:1)
BITS C313 LAB ORIENTED PROJECT (No. of students:1)
2008-09 (ST)
BITSAT Examination
Detained for WILP assignments
2009-10 (S1)
MEL G625 Advanced Analog Mixed Signal Design (IC)
EEE/INSTR C424 Microelectronic Circuits (T)
BITS G621 Professional Practice II (No. of Students: 2)
BITS C313 LAB ORIENTED PROJECT
(No. of students:1)
2009-10 (S2)
MEL641 CAD for IC design (IC)
EEE C364/ INSTR C364 Analog Electronics (L, IC)
BITS G621 Professional Practice II (No. of Students: 1)
BITS C313 LAB ORIENTED PROJECT (No. of students:5)
BITS C323 STUDY ORIENTED PROJECT (No. of students:1)
2009-10 (ST)
BITSAT Examination
2010-11 (S1)
CS/EEE/INSTR C391 Digital Electronics and Computer Organization (T, P)
ES C241 Electrical Sciences I (L)
BITS C313 LAB ORIENTED PROJECT (No. of students:1)
BITS C323 STUDY ORIENTED PROJECT (No. of students:4)
2010-11 (S2)
MEL641 CAD for IC design (IC)
EEE C364/ INSTR C364 Analog Electronics (L)
BITS C313 LAB ORIENTED PROJECT (No. of students:1)
BITS C323 STUDY ORIENTED PROJECT (No. of students:3)
BITS C331 COMPUTER PROJECT (No. of students:1)
2010-11 (ST)
BITS C221:PS-1 RAPS, Rawatbhata
21 May 2011 to 17 July 2011
2011-12 (S1)
EEE G543 Power Device Microelectronics and Selection (IC)
ES C241 Electrical Sciences I (L)
BITS C421T/ BITS C422T FDTS (No. of students:03)
BITS C313 LAB ORIENTED PROJECT (No. of students:2)
BITS C323 STUDY ORIENTED PROJECT (No. of students:2)
2011-12 (S2)
MEL641 CAD for IC design (IC)
EEE F111 Electrical Science (T)
BITS G540 Research Practice ( No. of students:05)
BITS C629T Higher Degree Dissertation (No. of students:01)
BITS C421T/ BITS C422T FDTS (No. of students:05)
BITS C323 STUDY ORIENTED PROJECT (No. of students:4)
BITS C331 COMPUTER PROJECT (No. of students:1)
2011-12 (ST)
BITS C221
PS-1 Nagpur (GlobalLogic, Windals Precision)
19 May 2012 to 15 July 2012
2012-13 (S1)
CS/EEE/INSTR C391 Digital Electronics and Computer Organization (T)
EEE F215 Digital Design (T)
EEE/INSTR C424 Microelectronic Circuits (T)
EEE C443/EEE F313 Analog and Digital VLSI Design (T)
BITS C421T/ BITS C422T FDTS (No. of students:03)
BITS C313 LAB ORIENTED PROJECT (No. of students:3)
BITS C323 STUDY ORIENTED PROJECT (No. of students:1)
BITS C331 COMPUTER PROJECT (No. of students:1)
2012-13 (S2)
MEL641 CAD for IC design (IC) --telepresence
EEE/INSTR F244 Microelectronic Circuits (L, IC)
BITS G540 Research Practice ( No. of students:02)
BITS C629T Higher Degree Dissertation (No. of students:02)
BITS C421T/ BITS C422T FDTS (No. of students:01)
BITS C313 LAB ORIENTED PROJECT (No. of students:3)
BITS C323 STUDY ORIENTED PROJECT (No. of students:3)
2012-13 (ST)
BITS C221
PS-1 Nagpur (GlobalLogic, Windals Precision, NEERI, Metalfab Hightech Pvt Ltd.), Awarpur (Awarpur Cement Works)
20 May 2013 to 15 July 2013
2013-14 (S1)
EEE/INSTR C424 Microelectronic Circuits (IC)
EEE/INSTR C381 Electronic Devices and Integrated Circuits (T)
EEE F214 Electronic Devices and Integrated Circuits (T)
BITS C421T/ BITS C422T FDTS (No. of students:03)
BITS C313 LAB ORIENTED PROJECT (No. of students:2)
EEE/INSTR F366 LABORATORY PROJECT (No. of students:1)
EEE/INSTR F266 STUDY PROJECT (No. of students:2)
2013-14 (S2)
MEL641 CAD for IC design (IC) --telepresence
EEE/INSTR F244 Microelectronic Circuits (L,T)
BITS G540 Research Practice (No. of students:04)
BITS C421T/ BITS C422T FDTS (No. of students:01)
BITS C323 STUDY ORIENTED PROJECT (No. of students:3)
EEE/INSTR F376 DESIGN PROJECT (No. of students:1)
EEE/INSTR F366 LABORATORY PROJECT (No. of students:1)
EEE/INSTR F266 STUDY PROJECT (No. of students:1)
2013-14 (ST)
Industry Immersion Program
25 May to 5 July 2014 at "Cypress Semiconductor Limited, Bangalore".
2014-15 (S1)
EEE F313/INSTR F313 Analog and Digital VLSI Design (T)
MEL G626 VLSI Test and Testability (IC)
EEE F214/INSTR F214 Electronic Devices (T)
BITS C421T/ BITS C422T FDTS (No. of students:02)
EEE/INSTR F376 DESIGN PROJECT (No. of students:1)
EEE/INSTR F366 LABORATORY PROJECT (No. of students:6)
2014-15 (S2)
MEL641 CAD for IC design (IC) --telepresence
EEE/INSTR F244 Microelectronic Circuits (T)
EEE F111 Electrical Science (T)
BITS G540 Research Practice (No of students:05)
BITS C421T/ BITS C422T FDTS (No. of students:04)
EEE/INSTR F376 DESIGN PROJECT (No. of students:1)
EEE/INSTR F366 LABORATORY PROJECT (No. of students:2)
EEE/INSTR F266 STUDY PROJECT (No. of students:2)
EEE F491L SPECIAL PROJECT (No. of students:1)
2014-15 (ST)
BITS C221
PS-1 at Adani power Tirora and Globallogic Nagpur
20 May 2015 to 18 July 2015
2015-16 (S1)
EEE F313/INSTR F313 Analog and Digital VLSI Design (T)
MEL G626 VLSI Test and Testability (IC) --telepresence
EEE F214/INSTR F214 Electronic Devices (T)
BITS C421T/ BITS C422T FDTS (No. of students:01)
EEE/INSTR F376 DESIGN PROJECT (No. of students:3)
EEE/INSTR F366 LABORATORY PROJECT (No. of students:3)
2015-16 (S2)
MEL641 CAD for IC design (IC) --telepresence
EEE F111 Electrical Science (IC)
BITS G540 Research Practice (No. of students:04)
BITS C421T/ BITS C422T FDTS (No. of students:02)
INSTR F376 DESIGN PROJECT (No. of students:2)
INSTR F266 LABORATORY PROJECT (No. of students:2)
2015-16 (ST)
BITS C221
PS-1 at Adani power Tirora and Globallogic Nagpur
21 May 2016 to 18 July 2016
2016-17 (S1)
EEE F313/INSTR F313 Analog and Digital VLSI Design (T)
MEL G626 VLSI Test and Testability (IC) --telepresence
EEE F214/INSTR F214 Electronic Devices (T)
BITS C421T/ BITS C422T FDTS (No. of students:02)
EEE F366 LABORATORY PROJECT (No. of students:2)
2016-17 (S2)
MEL641 CAD for IC design (IC)
EEE F111 Electrical Science (L)
BITS G540 Research Practice ( No. of students:04)
BITS C421T/ BITS C422T FDTS (No. of students:02)
EEE F376 DESIGN PROJECT (No. of students:3)
INSTR F376 DESIGN PROJECT (No. of students:1)
2016-17 (ST)
-
2017-18 (S1)
EEE F111 Electrical Science (L)
MEL G626 VLSI Test and Testability (IC) --telepresence
EEE F313/INSTR F313 Analog and Digital VLSI Design (T)
BITS G513: Study in Advanced Topics (No. of students:01)
IS F376 DESIGN PROJECT (No. of students:1)
2017-18 (S2)
MEL641 CAD for IC design (IC)
EEE/INSTR F244 Microelectronic Circuits (T)
BITS G540 Research Practice ( No. of students:03)
BITS C421T/ BITS C422T FDTS (No. of students:01)
EEE F266 STUDY PROJECT (No. of students:2)
INSTR F366 LABORATORY PROJECT (No. of students:1)
2017-18 (ST)
University Immersion at Visiting Assistant Professor' University of Virginia, Charlottesvillie
20 May 2018 to 20 July 2018
2018-19 (S1)
EEE F111 Electrical Science (IC)
MEL G626 VLSI Test and Testability (IC) --telepresence
ES ZG628T Dissertation (Mentor, No. of students:01)
EEE F376 DESIGN PROJECT (No. of students:1)
2018-19 (S2)
MEL641 CAD for IC design (IC)
EEE/INSTR F244 Microelectronic Circuits (L)
BITS G540 Research Practice ( No. of students:06)
BITS C421T/ BITS C422T FDTS (No. of students:03)
ES ZG628T Dissertation (Mentor, No. of students:04)
2018-19 (ST)
BITS C221
PS-1 at Adani power Tirora and See Tech Nagpur, Geomitra Solutions Nagpur
19 May 2019 to 15 July 2019
2019-20 (S1)
EEE F111 Electrical Science (IC)
MEL G626 VLSI Test and Testability (IC) --telepresence
ES ZG628T Dissertation (Mentor, No. of students:01)
EEE F267 STUDY PROJECT (No. of students:1)
2019-20 (S2)
MEL641 CAD for IC design (IC)
EEE/INSTR F244 Microelectronic Circuits (T)
EEE F341/INSTR F341 Analog Electronics (T)
BITS G540 Research Practice ( No. of students:06)
BITS C421T/ BITS C422T FDTS (No. of students:01)
EEE F376 DESIGN PROJECT (No. of students:1)
INSTR F376 DESIGN PROJECT (No. of students:1)
EEE F266 STUDY PROJECT (No. of students:2)
ES ZG628T Dissertation (Mentor, No. of students:04)
2019-20 (ST)
BITS C221
PS-1 at online: CEERI Pilani, Electrono Solutions, Bangalore, Pyrotech Electronics Udaipur
18 May 2020 to 27 June 2020
-------------------------------------------------------------------------------------------------------------------------
2020-21 (S1)
EEE F111 Electrical Science (L)
MEL G626 VLSI Test and Testability (IC)
BITS C421T/ BITS C422T FDTS (No. of students:01)
ES ZG628T Dissertation (Mentor, No. of students:04)
EEE F376DESIGN PROJECT (No. of students:1)
EEE F266 STUDY PROJECT (No. of students:1)
INSTR F266 STUDY PROJECT (No. of students:1)
EEE F366 LABORATORY PROJECT (No. of students:1)
2020-21 (S2)
EEE F111 Electrical Science (L, IC)
MEL641 CAD for IC design (IC)
BITS G540 Research Practice (No. of students:06)
ES ZG628T Dissertation (Mentor, No. of students:12)
EEE F377 DESIGN PROJECT (No. of students:2)
2021-22 (S1)
EEE F111 Electrical Science (L, old)
EEE F111 Electrical Science (L, NAS)
EEE F111 Electrical Science (T, NAS)
MEL G626 VLSI Test and Testability (IC)
ES ZG628T Dissertation (Mentor, No. of students:05)
EEE F376 DESIGN PROJECT (No. of students:1)
INSTR F266 STUDY PROJECT (No. of students:1)
INSTR F366 LABORATORY PROJECT (No. of students:2)
2021-22 (S2)
EEE F111 Electrical Science (IC) -- NAS
EEE F111 Electrical Science (T) -- NAS
MEL641 CAD for IC design (IC)
BITS G540 Research Practice ( No. of students:10)
BITS C421T/ BITS C422T FDTS (No. of students:1)
ES ZG628T Dissertation (Mentor, No. of students:10)
EEE F376 DESIGN PROJECT (No. of students:2)
INSTR F376 DESIGN PROJECT (No. of students:3)
INSTR F266 STUDY PROJECT (No. of students:1)
2021-22 (ST):
Detained for summer term from 27 June 2022 to 18 August 2022 for teaching following courses to new academic session students admitted in first year:
EEE F111 Electrical Science (IC) -- NAS
EEE F111 Electrical Science (T) -- NAS
2021-22 (ST): Detained for teaching
EEE F111 Electrical Science (IC) -- NAS
EEE F111 Electrical Science (T) -- NAS
2022-23 (S1):
EEE F111 Electrical Science (IC)
MEL G626 VLSI Test and Testability (IC)
ES ZG628T Dissertation (Mentor, No. of students:04)
2022-23 (S2):
MEL641 CAD for IC design (IC)
EEE F341/INSTR F341 Analog Electronics (T)
BITS G540 Research Practice ( No. of students:10)
BITS C421T/ BITS C422T FDTS (No. of students:1)
ES ZG628T Dissertation (Mentor, No. of students:03)
EEE F376 DESIGN PROJECT (No. of students:04)
INSTR F376 DESIGN PROJECT (No. of students:02)
INSTR F266 STUDY PROJECT (No. of students:01)
2022-23 (ST):
BITS C221
PS-1 at onsite: CEERI Pilani
30 May 2023 to 21 July 2023
2023-24 (S1):
MEL G626 VLSI Test and Testability (IC)
EEE F214/INSTR F214 Electronic Devices (T)
EEE C443/EEE F313 Analog and Digital VLSI Design (T)
BITS C421T/ BITS C422T FDTS (No. of students:03)
ES ZG628T Dissertation (Mentor, No. of students: 01)
EEE/INSTR F376 DESIGN PROJECT (No. of students:2)
INSTR F266 STUDY PROJECT (No. of students: 3)
2023-24 (S2)
MEL641 CAD for IC design (IC)
EEE F111 Electrical Science (L)
EEE/INSTR F244 Microelectronic Circuits (T)
BITS G540 Research Practice ( No. of students:9)
BITS C629T Higher Degree Thesis (No. of students:2)
BITS C421T/ BITS C422T FDTS (No. of students:3)
ES ZG628T Dissertation (Mentor, No. of students:03)
EEE/INSTR F376 DESIGN PROJECT (No. of students:02)
INSTR F266 STUDY PROJECT (No. of students:01)
2023-24 (ST)
BITSAT examination from 22/6/2024 to 29/6/2024
The research focus is centered around the following broad areas:
My teaching interests are in building the foundation of the students by extending their understanding about the Principles & Applications of Chemistry; Exposing the students to the recent research activities in Chemistry mainly in the field of "Advanced Materials" and To develop in a student, research ability to design novel research schemes.
2022-23
2023-24
2024-25 (Ongoing)
aEG
WSREG
To be updated.
S. No. | Name of the course | Level |
1 | Reinforced Soil Structures for Transportation Engineers | PG |
2 | Ground Improvement Technique | PG |
3 | Design of Foundations for Dynamic Loads | PG |
4 | Earthquake Engineering | PG |
5 | Advanced Foundation Engineering | PG |
6 | Advance Soil Mechanics | PG |
7 | Dynamics of Structures | PG |
8 | Pavement Material Characterization | PG |
9 | Highway Construction Practices | PG |
10 | Project Planning and Management | PG |
11 | Highway Geometric Design | PG |
12 | Geosynthetics and Reinforced Soil Structures | UG |
13 | Foundation Engineering | UG |
14 | Geotechnical Earthquake Engineering and Machine foundation | UG |
15 | Design of Foundation Systems | UG |
16 | Soil Mechanics | UG |
17 | Earthquake Resistant Design & Construction | UG |
18 | Structural Dynamics | UG |
19 | Soil Mechanics & Foundation Engg | UG |
20 | Construction Planning and Technology | UG |
21 | Construction Materials | UG |
22 | Building Materials and Technology | UG |
23 | Mechanics of Solids | UG |
24 | Transportation Engineering | UG |
25 | Civil Engineering Practice | UG |
26 | Engineering Graphics | UG |
Course Code | Course Name | Level |
CE G515 | Dynamics of Structures | PG |
CE G632 | Design of Foundations for Dynamic Loads | PG |
CE C419 | Geotechnical Earthquake Engineering and Machine Foundation | UG |
CEF428 | Earthquake Resistant Design and Construction | UG |
CE F214 | Construction Materials | UG |
CE F426 | Geosynthetics and Reinforced Soil Structures | UG |
CE F429 | Design of Foundation Systems | UG |
TEZG513 | Reinforced Soil Structures for Transportation Engineers | PG |
The mediocre teacher tells. The good teacher explains. The superior teacher demonstrates. The great teacher inspires.
... William Arthur Ward
BITS F110: ENGINEERING GRAPHICS (LAB)
CE F211: MECHANICS OF SOLIDS
CE F241: ANALYSIS OF STRUCTURES
CE F311: DES OF CONCRETE STRUCTURES
CE F320: DESIGN OF REINFORCED CONCRETE STRUCTURES
CE F343: DES OF STEEL STRUCTURES
CE C381: DESIGN OF STEEL STRUCTURES
CE F415: DESIGN OF PRESTRESSED CONCRETE STRUCTURES
CE F420: INTRODUCTION TO BRIDGE ENGG
CE C422: DESIGN OF BRIDGE STRUCTURES
CE F430: DESIGN OF ADVANCED CONCRETE STRUCTURES
CE F435: INTRODUCTION TO FEM
CE G613: ADVANCED CONCRETE STRUCTURES
CE G614: PRESTRESSED CONCRETE STRUCTURES
CE G615: EARTHQUAKE ENGINEERING
CE G616: BRIDGE ENGINEERING
CE G617: ADVANCED STRUCTURAL ANALYSIS
CE G619: FINITE ELEMENT METHOD
CE G554: ADVANCED STRUCTURAL DESIGN
Introductory Psychology (GS F232)
Introduction to Conflict Management (GS F311)
Introduction to Social Psychology (HSS F372)
Science of Sustainable Happiness (HSS F365 )
Emergency Sanitation and Leadership (SAN G515)
Emergency Sanitation and Leadership (SSTM ZG515) for (WILP)
Technical Report Writing (BITS F112)
PhD and MPhil courses
Sl No |
Course No |
Course Title |
Credit Unit |
BE/ME/Core/ Elective/WILP |
Remark |
||
Lecture |
Practical/ Project |
Total |
|||||
1 |
CHE F211 |
Chemical Process Calculations |
3 |
0 |
3 |
BE/Core |
|
3 |
CHE F212 |
Fluid Mechanics |
3 |
0 |
3 |
BE/Core |
|
2 |
CHE F213 |
Chemical Engineering Thermodynamics |
3 |
0 |
3 |
BE/Core |
|
4 |
CHE F241 |
Heat Transfer |
3 |
0 |
3 |
BE/Core |
|
5 |
CHE F243 |
Material Science & Engineering |
3 |
0 |
3 |
BE/Core |
|
6 |
CHE F312 |
Chemical Engineering Laboratory I |
0 |
3 |
3 |
BE/Core |
|
7 |
BITS F418 |
Introduction to Biomedical Engineering |
3 |
1 |
4 |
BE/ME/ Elective |
Proposed, developed, & floated |
8 |
BITS F429 |
Nanotechnology for Renewable Energy and Environment |
3 |
1 |
4 |
BE/ME/ Elective |
Proposed, developed, & floated |
9 |
CHE G522 |
Polymer Technology |
3 |
1 |
4 |
BE/ME/ Elective |
|
10 |
CHE G528 |
Introduction to Nanoscience & Technology |
3 |
1 |
4 |
BE/ME/ Elective |
|
11 |
CHE G622 |
Advanced Chemical Engineering Thermodynamics |
|
|
5 |
ME/ Core |
|
12 |
BITS G661 |
Research Methodology I |
|
|
5 |
ME/ Core |
|
13 |
MST G521 |
Material Characterization Techniques |
3 |
2 |
5 |
ME/ Elective
|
|
14 |
MST F331 |
Materials Characterization |
3 |
1 |
4 |
BE/Core |
|
15 |
MST F332 |
Materials Processing |
3 |
0 |
3 |
BE/Core |
|
16 |
POWAB ZC411/POWJS ZC411/ POWTP ZC411 |
Environmental Pollution Control |
3 |
0 |
0 |
Online WILP |
|
17 |
PE ZC319 |
UNIT OPERATIONS – I |
3 |
0 |
0 |
Online WILP |
|
18 |
EE ZG614 |
Air Pollution Control Technologies |
3 |
0 |
0 |
Online WILP |
|
P.C. Sande completed her ME and PhD from BITS Pilani. Her Doctoral thesis was in the field of CFD simulation of reactors. She has more than 13 years of research and teaching experience, and is currently serving as Assistant Professor at Department of Chemical Engineering BITS, Pilani; Pilani campus. She has taught more than ten different Chemical Engineering courses for UG & PG students, including Thermodynamics, CFD, Petroleum engineering, Research Methodology and Technical communication. She has contributed to the Work Integrated Learning Program of the institute. She has published journals with American Chemical Society, Elsevier, Taylor and Francis, Sage and Springer. She is part of Academic Counselling Cell of the Institute, and has held other positions at the Department level. She has contributed to BITS Pilani Library over the years. Apart from engineering she also researches on creative thinking and engineering education. She is an avid reader in general and studies the Old and New Testament regularly.
Undergraduate course, BITS Pilani, CSIS, 2024
Lecture content can be found here
Undergraduate/Post-Graduate Course, BITS Pilani, CSIS, 2023
Taught in previous semester
Currently Teaching:
Previously taught:
2nd Sem 2022-23
1st Sem 2022-23
2nd Sem 2021-22
1st Sem 2021-22
2nd Sem 2020-21
1st Sem 2020-21
2nd Sem 2019-20
1st Sem 2019-20
2nd Sem 2018-19
1st Sem 2018-19
2nd Sem 2017-18
1st Sem 2017-18
2nd sem 2016-17
1st sem 2016-17
2022-23 (2) Jan-May
2022-23 (1) Aug-Dec
2021-22 (2) Jan-May
2021-22 (1) Aug-Dec
2020-21 (2) Jan-May
Unique Courses
Session | Jul-Dec | Jan-Apr | May-Jul |
---|---|---|---|
2015-16 | Adv-Algo, Adv-OS, BITSET | ||
2016-17 | ADM, LogicInCS, Spl | ML, DAA, CogComputing, Spl | PS-1 at Delhi |
2017-18 | ADM, LogicInCS, Spl | ML, ADM, Spl | PS-1 at Lucknow |
2018-19 | AI, ML, Spl | ADM, ML-Lab, Spl | PS-1 at Nagda |
2019-20 | ADM, DL-4CV, Spl | ADM, DAA, wilp-AIML, Spl | PS-1 online at Goa, Kolkata, Gandhinagar, Banglore |
2020-21 | AI, ML, Spl | DAA, ML Spl | PS-1 - ONLINE - three centers |
2021-22 | ADM, Deep Learning, Spl | BDS, Deep Learning, Blockchain, Spl | PS-1 - ONLINE - two centers |
2022-23 | AI, Deep Learning, Spl | Deep Learning, Spl |
Airport, Railways and Waterways Engineering. Engineering Graphics; Highway Engineering Laboratory.
Transportation Systems Planning and Management, Traffic Engineering and Safety, Transportation Economics and Finance, Urban Mass Transit Planning, Operations and Management
Prateek teaches humanities courses at BITS Pilani. He has significant experience in teaching literatures in English at colleges under the University of Delhi between 2007 and 2013. He held a teaching assistantship at the Centre for English Studies, Jawaharlal Nehru University between 2006 and 2007 and South Asian Council, Yale University between 2010 and 2011. He worked at the University of Queensland between 2017 and 2018 as a drama tutor. In Feb 2018, he also interned as Assistant Artistic Director at Queensland Shakespeare Ensemble, Queensland, Australia during the production of Shorts, a skit based on the condensed version of three Shakespeare plays. Between 2018 and 2020, Prateek taught courses on World Literature and Modern Indian Theatre at SRM University, Amaravati. While researching at Northwestern University between 2021 and 2022 as a postdoctoral Fulbright fellow, he delivered class lectures for theatre courses. Moreover, he has written and directed a number of theatre productions.
CHEM F111: General Chemistry
CHEM F313: Instrumental Methods of Analysis
BITS F111: Thermodynamics
CHEM F341: Chemical Experimentation II
CHEM F211: Physical Chemistry I
Off-Campus Courses (WILP)
Teaching Interest:
On-Campus Courses
Off-Campus Courses (WILP)
II Semester 2023-24:
I Semester 2023-24:
II Semester 2022-23:
I Semester 2022-23:
II Semester 2021-22:
I Semester 2021-22:
II Semester 2020-21:
I Semester 2020-21:
II Semester 2019-20:
I Semester 2019-20:
II Semester 2018-19:
I Semester 2018-19:
Courses taught previously:
Pharmaceutical Analysis (Core)
Pharmaceutical Chemistry (Core)
Retrosynthetic Analysis (Elective)
Pharmaceutical Process Chemistry (Elective)
Pharmaceutical Chemistry (WILP)
Teaching and Research Experience:
Designation |
Duration |
Organisation |
Professor |
February 2013 – Continue |
BITS Pilani |
Associate Professor |
August 2010 – January 2013 |
BITS Pilani |
Assistant Professor |
May 2002 – July 2010 |
BITS Pilani |
Visiting Faculty |
December 2000- May 2002 |
IIT Kanpur |
Senior Lecturer |
March 1999-December 2000 |
Tezpur University Central |
Lecturer |
March 1995 - March 1999 |
Tezpur University Central |
Research Associate |
October 1994 - February 1995 |
IIT Kanpur |
Research Scholar |
July 1990 – October 1994 |
IIT Kanpur |
Courses Taught:
Courses (Teaching every semester)-
Credit Type-
Appreciation of Indian Music
Musicology-An-Introduction
Audit Type-
Indian Classical Music (Inst)-I.
Music N114T Indian Classical Music (Inst)-II.
Project Type Courses: (Teaching Every Semester)-
Study Oriened Project
Lab Oriented Project
Computer Oriented Project
Design Oriented Project
CDC:
Foundational Courses:
Discipline Electives:
Other:
To be updated soon.
To be updated soon.
Transducers and Measurement Techniques (INSTR F312)
Electrical Sciences (EEE F111)
Industrial Instrumentation and Control (INSTR F343)
Microprocessor Programming and Interfacing (EEE/INSTR/ECE/CS F241)
Control System (EEE/INSTR/ECE F245)
RESEARCH FELLOWSHIPS / AWARDS
Courses
Courses
Courses in Current Semester :
Mechanics Oscillations and Waves
Electromagnetic Theory II
Courses Taught :
Physics
Modern Physics
Coding Theory and Applications
Image Processing
Computer Graphics
Introduction to Psychology
Science of Sustainable Happiness
Graduate Courses |
Undergraduate Courses |
Undergraduate Courses |
Undergraduate Courses |
Teach courses in International Relations, Political Science, and Policy Studies. The specific course titles are as follows: International Relations, Modern Political Concepts, Public Policy, and Chinese Politics.
Distinct courses handled and taught as Instructor-in charge and Instructor, since 2009-to till date for Undergraduates and Higher degree students.
10 courses (Lectures and Tutorials) and 8 Laboratory courses (Practicals) for Undergraduates
7 Courses for Ph.D students
Teaching Courses:
2009-2010
First Semester: CHEM C 141 (Physical Chemistry), TA C211 (Measurement Techniques 1 Lab)
Second Semester: CHEM C142 (Organic Chemistry), ES_C242 (Structure and Properties of Materials), TA C211 (Measurement Techniques 1 Lab)
2010-2011
First Semester: CHEM C 141 (Physical Chemistry), TA C211 (Measurement Techniques 1 Lab)
2011-2012
First Semester: CHEM F111(General Chemistry, TS 2,3), TA C211 (Measurement Techniques 1(Lab PS 12) CHEM C321 (Chemical Thermodynamics)
Second Semester: CHEM F110 (Chemistry Laboratory, PS 6, 9 and 12), CHEM C231 (Chemistry Project Lab, IC, Sec 1)
2012-2013
First Semester: CHEM C321(Chemical Thermodynamics, IC, Sec1), CHEM F110 (Chemistry Laboratory, PS 6), CHEM C231 (Chemistry Project Lab)
Second Semester: CHEM F110 (Chemistry Laboratory, PS 1, 2), CHEM F361 (Polymer Chemistry, IC Sec 1)
2013-2014
First Semester: CHEM F111(General Chemistry IC, Lec, TS1), CHEM F110 (Chemistry Laboratory, PS 3)
Second Semester: CHEM F110 (Chemistry Laboratory, IC, PS 3, 6), CHEM F111(General Chemistry, TS3), Laboratory Project (CHEM F366/367, IC)
2014-2015
First Semester: CHEM F111(General Chemistry TS7), CHEM F110 (Chemistry Laboratory, PS 4,7)
Second Semester: CHEM F341 (Chemical Experimentation Laboratory II, IC, PS1), CHEM F325 (Polymer Chemistry, IC, Lec)
2015-2016
First Semester: CHEM F313(Instrumental Methods of Analysis, IC, Lec, lab), CHEM F110 (Chemistry Laboratory, PS 7), MST F331 (Materials Characterization, Lec, TS 1)
Second Semester: CHEM F341 (Chemical Experimentation Laboratory II, PS1), CHEM F110 (Chemistry Laboratory, PS 6), CHEM F414 (Bio and Chem Sensors, IC, Lec)
2016-2017
First Semester: CHEM F111(General Chemistry TS4), CHEM F110 (Chemistry Laboratory, IC, PS 2,PS 5, PS 7)
Second Semester: CHEM F414 (Bio and Chem Sensors, IC, Lec and Lab), CHEM F110 (Chemistry Laboratory, PS 2, PS4
2017-2018
First Semester: Research Methodology (BITS E 661, Lect), Advanced Physical Chemistry (CHEM G553) General Chemistry (CHEM F111, TS6), CHEM F313(Instrumental Methods of Analysis, Lec, lab)
Second Semester: General Chemistry (CHEM F111, TS 7), CHEM F110 (Chemistry Laboratory, PS4), CHEM G 531 (Recent Advances in Chemistry, IC, Lec), CHEM F414 (Bio and Chem Sensors, IC, Lec)
2018-2019
First Semester: CHEM F325 (Polymer Chemistry, Lect, Lab), CHEM F111 (General Chemistry, TS 2), CHEM G553 (Advanced Physical Chemistry, IC, Lect), CHEM G531 (Recent Advances in Chemistry, IC, Lect)
Second Semester: CHEM F414 (Bio and Chem Sensors, IC, Lec), CHEM F110 (Chemistry Laboratory, PS4, PS 12), CHEM G 531 (Recent Advances in Chemistry, IC, Lec), CHEM F266 (Study Project, IC)
2019-2020
First Semester: CHEM F325 (Polymer Chemistry, Lect, Lab), CHEM F111 (General Chemistry, TS 9), CHEM F110 (Chemistry Laboratory, PS4)
Second Semester: CHEM F414 (Bio and Chem Sensors, IC, Lec), CHEM F110 (Chemistry Laboratory, PS10, PS11)
2020-2021
First Semester: CHEM F111 (General Chemistry, Lectures, TS 3), CHEM F325 (Polymer Chemistry, Lect, Lab), CHEM F110 (Chemistry Laboratory, PS3, PS10)
Second Semester: CHEM F414 (Bio and Chem Sensors, IC, Lec, Lab), CHEM F111 (General Chemistry, Lectures, TS 2), CHEM F110 (Chemistry Laboratory, PS 5)
2021-2022
First Semester: CHEM F313(Instrumental Methods of Analysis, IC, Lec, lab), CHEM F110 (Chemistry Laboratory, PS16), CHEM G553 (Advanced Physical Chemistry, IC, Lect), BITS G513 (Study in Advanced Topics)
Second Semester: CHEM F414 (Bio and Chem Sensors, IC, Lec, Lab), CHEM G 531 (Recent Advances in Chemistry, IC, Lec), Laboratory Project (CHEM F 366/367, IC)
2022-2023
First Semester: CHEM F111 (General Chemistry, IC, Lectures, TS 1)
Second Semester: CHEM F414 (Bio and Chem Sensors, IC, Lectures, Lab components conducted for hands-on-experience to students); CHEM F110 (Chemistry Laboratory) PS 6
2023-2024
First Semester: CHEM F111 (General Chemistry, Lectures from August 12th Till October 6th, TS 10); CHEM F110 (Chemistry Laboratory) PS 8
Second Semester: CHEM F414 (Bio and Chem Sensors, IC, Lectures, Lab components for hands-on-experience to students); CHEM F110 (Chemistry Laboratory PS 10)
2024-2025
First Semester: CHEM F111 (General Chemistry, Lectures from August 7th Till October 18th, TS 2)
Laboratory Courses:
Courses taught to Ph. D students:
CORE (CHEMISTRY)
U.G.
WILP COURSE - ENVIRONMENTAL CHEMISTRY EE ZG511/SSTM ZG521
( M.TECH ENVIRONMENTAL ENGG.)
P.G.
INTERDISCIPLINARY (CHEMICAL ENGINEERING)
MULTIDISCIPLINARY
Ph.D. COURSES
a. PHYSICAL METHODS IN CHEMISTRY.
b. RESEARCH PROJECT 1
c. STUDY IN ADVANCED TOPICS
d. ADVANCED PHYSICAL CHEMISTRY.
e. RESEARCH METHODOLOGY
INTERNATIONAL TEACHING ASSIGNMENT:
Awarded the Visiting Associate Professorship from National Taiwan University of Science and Technology (NTUST), Taipei, Taiwan, to teach a Graded course to M. Tech. Chemical Engineering and Ph. D. Scholars in the Summer of 2016( June-July)
EEE G581 RF & Microwave Engineering
ECE F314 EM Fields and Microwave Engineering
ECE F312 EM Fields and Microwave Engineering Lab
EEE F474 Antenna Theory and Design
EEE G510 RF Microelectronics
EEE F111 Electrical Sciences
SS ZG520 Wireless and Mobile Communications (WILP)
EEE/ECE/INSTR/CS F241 Microprocessor Programming and Interfacing (Tutorial & Lab)
EEE/ECE F311 Communication Systems (Lecture)
Courses Taught (offered by physics department)
Courses Taught (offered by mathematics department)
Courses taught (offered by WILP)
Fall 2024
Microprocessor and Interfacing (Lecture + Tutorial + Lab)
Fall 2023
Digital Design (Tutorial + Lab)
Reconfigurable Computing (Lab)
2024-2025
Mechanics, Oscillations and Waves
Physics Lab I
General Biology - BIO F111 Microbiology- BIO F212 Recombinant DNA Technology- BIO F311 Recent Developments in Biology- BIO G570 |
During my previous teaching experience at VIT Vellore, I taught process engineering thermodynamics, heat transfer, petroleum technology, petrochemical technology, fuels and combustion, mechanical operations, research publication and ethics, and material science and engineering.
Teaching
ECON F341-Public Finance-Theory and Policy
ECON F211-Principles of Economics
BITS F314-Game Theory and its Application
ECON F214- Economic Environment of Business
Primary neuronal culture obtained by dissecting mice brain
August - December 2023
To be updated soon.
Instrumental Methods of Analysis |
Instrumental Methods of Analysis |
Instrumental Methods of Analysis |
Courses taught in AY 2011-12, 1st SEM |
1 |
Natural Drugs (2hrs/wk lectures, 1 hr/wk tut) |
2 |
Dispensing Pharmacy (3 hr/wk lab) |
|
3 |
Computer Aided Drug Design (3 hrs/wk lectures) |
|
4 |
Clinical Research (3 hrs/wk lectures) |
|
Courses taught in AY 2011-12, 2nd SEM |
1 |
Shrimad Bhagavad Gita (3 hrs/wk lectures) |
2 |
Computer Aided Drug Design (3 hrs/wk lectures) |
|
3 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
|
Courses taught in AY 2012-13, 1st SEM |
1 |
Clinical Research (3 hrs/wk lectures) |
2 |
Shrimad Bhagavad Gita (3 hrs/wk lectures) |
|
3 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
|
Courses taught in AY 2012-13, 2nd SEM |
1 |
Pharmaceutical Chemistry (2 hrs/wk lectures, 1 hr/wk tut) |
2 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
|
Courses taught in AY 2013-14, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
Courses taught in AY 2013-14, 2nd SEM |
1 |
Pharmaceutical Chemistry (2 hrs/wk lectures, 1 hr/wk tut, 3hr/wk lab) |
2 |
Advanced Medicinal Chemistry (3 hrs/wk lectures, 3hr/wk lab) |
|
Courses taught in AY 2014-15, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
3 |
Pharmacoeconomics (3 hrs/wk lectures) |
|
Courses taught in AY 2014-15, 2nd SEM |
1 |
Pharmaceutical Chemistry (2 hrs/wk lectures, 1 hr/wk tut) |
2 |
Advanced Medicinal Chemistry (3 hrs/wk lectures, 3hr/wk lab) |
|
Courses taught in AY 2015-16, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
Courses taught in AY 2015-16, 2nd SEM |
1 |
Pharmaceutical Chemistry (2 hrs/wk lectures, 1 hr/wk tut) |
2 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
|
Courses teaching in AY 2016-17, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
Courses taught in AY 2016-17, 2nd SEM |
1 |
Pharmaceutical Chemistry (2 hrs/wk lectures, 1 hr/wk tut) |
2 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
|
Courses taught in AY 2017-18, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
Courses taught in AY 2017-18, 2nd SEM |
1 |
Pharmaceutical Chemistry (2 hrs/wk lectures, 1 hr/wk tut) |
2 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
|
Courses taught in AY 2018-19, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
Courses taught in AY 2018-19, 2nd SEM |
1 |
Pharmacoeconomics (3 hrs/wk lectures) |
2 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
|
Courses taught in AY 2019-20, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
3 |
Intellectual Property Rights and Pharmaceuticals (WILP course for Industry professionals) |
|
Courses taught in AY 2019-20, 2nd SEM |
1 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
2 |
Intellectual Property Rights and Pharmaceuticals (3 hrs/wk lectures) |
|
Courses taught in AY 2020-21, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
3 |
Intellectual Property Rights and Pharmaceuticals (WILP course for Industry professionals) |
|
Courses taught in AY 2020-21, 2nd SEM |
1 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
2 |
Intellectual Property Rights and Pharmaceuticals (3 hrs/wk lectures) |
|
3 |
Intellectual Property Rights and Pharmaceuticals (WILP course for Industry professionals) |
|
Courses taught in AY 2021-22, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
3 |
Intellectual Property Rights and Pharmaceuticals (WILP course for Industry professionals) |
|
Courses taught in AY 2021-22, 2nd SEM |
1 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
2 |
Intellectual Property Rights and Pharmaceuticals (3 hrs/wk lectures) |
|
Courses taught in AY 2022-23, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
3 |
Intellectual Property Rights and Pharmaceuticals (WILP course for Industry professionals) |
|
4 |
Pharmaceutical Chemistry (WILP course for CIPLA) |
|
Courses taught in AY 2022-23, 2nd SEM |
1 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
2 |
Intellectual Property Rights and Pharmaceuticals (3 hrs/wk lectures) |
|
3 |
Intellectual Property Rights and Pharmaceuticals (WILP course for Industry professionals) |
|
4 |
Techniques in Pharmaceutical Analysis ((WILP course for Dr. Reddys Lab) |
|
Courses taught in AY 2023-24, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
3 |
Intellectual Property Rights and Pharmaceuticals (WILP course for Industry professionals) |
|
Courses taught in AY 2023-24, 2nd SEM |
1 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
2 |
Intellectual Property Rights and Pharmaceuticals (3 hrs/wk lectures) |
|
3 |
Intellectual Property Rights and Pharmaceuticals (WILP course for Industry professionals) |
|
Courses taught in AY 2024-25, 1st SEM |
1 |
Advanced Pharmaceutical Chemistry (3 hrs/wk lectures) |
2 |
Clinical Research (3 hrs/wk lectures) |
|
3 |
Intellectual Property Rights and Pharmaceuticals (WILP course for Industry professionals) |
|
Courses to be taught in AY 2024-25, 2nd SEM |
1 |
Advanced Medicinal Chemistry (3 hrs/wk lectures) |
2 |
Intellectual Property Rights and Pharmaceuticals (3 hrs/wk lectures) |
|
3 |
Intellectual Property Rights and Pharmaceuticals (WILP course for Industry professionals) |
A. Curriculum development: Was part of
B. Detailing out the curriculum for courses:
C. New courses offered first time in BITS:
D. Development of a New Laboratory:
E. Upgradation of the existing laboratory:
F. New Lab Experiments: Routinely, the practicals have been updated to keep pace with developments in Pharmacy, and hence new experiments are also developed. Also, new experiments were developed for new courses in Pharmaceutical Chemistry and Advanced Pharmaceutical Chemistry.
CHEM F422: Statistical Thermodynamics (IC: S-I 23-24, Co-Instructor: S-I 22-23, IC: S-I 24-25)
CHEM F312: Physical Chemistry IV (tutor: S-I 22-23)
CHEM F242: CE-II (S-II 23-24)
CHEM F242: CE-I (S-II 21-22)
CHEM F111: General Chemistry (lecture: S-II 22-23)
CHEM F111: General Chemistry (tutor: S-II 22-23, S-I 22-23, S-II 21-22, S-II 21-22, S-II 23-24)
CHEM F110: Chemistry Lab. (S-I 23-24)
Thermodynamics: (S-I 24-25)
To be updated soon.
To be updated soon.
Courses
Administrative Responsibilities:
Teaching Areas:
Administrative Responsibilities
Responsibilities:
Courses Taught at Birla Institute of Technology and Science, Pilani, Rajasthan, INDIA since August 2005 till date:
Courses Taught at Lawrence Technological University, Southfield, Michigan, USA (from November 2001-2004):
Courses taught by me at NIT Warangal (October 2004 to July 2005) as Instructor-in-Charge
1. Mechanics of Material.
2. Advance Structural Design
Courses taught by me at MNNIT Allahabad (September 1988 till November 1999) as Instructor-in-Charge
Course No: CHEM F110 & Course Title: Chemistry Laboratory (Analytical methods, synthetic procedures, operation of scientific equipments for collecting data and the analysis of collected data)
Course No: CHEM F243 & Course Title: Organic Chemistry-II (Stereochemical concepts and their applications in organic synthesis; important functional group transformations; pericyclic reactions & organic photochemistry) (M.Sc. course)
Course No: CHEM F311 & Course Title: Organic Chemistry-III (Reagents and reactions in organic synthesis and disconnection or synthon approach) (M.Sc. course)
Informal Courses
FD (UG) Level
HD (PG) Level
For ASME (American Society of Mechanical Engineering) | Onsite Training for industrial professionals]
Subject Workshop Conducted
Curriculum Development
[Implemented as a Text Book in BITS Campuses, IIT Roorkee, Deharadun Institute of Technology, Deharadun, Yashvantrao Chavan College of Engineering, Nagpur, Vel-Tech University, Chennai, K L U University, Andhra Pradesh]
ENGINEERING GRAPHICS WITH AUTOCAD - KULKARNI, D. ... (phindia.com)
Indian Statistical Institute, Bangalore
I teach the following courses:
Regular Courses:
Off Campus Courses (WILP)
Project Courses:
PhD Courses:
Courses taught at BITS:
GS F331 Techniques in Social Research
GS F241 Creative Writing
HSS F330 Appreciation of Art
BITS G511 Advanced Project
BITS G514 Study in Advanced Topic
BITS G581 Writing Seminar
BITS Pilani (Assistant Professor), Department of Humanities and Social Sciences:
University of Oregon (Graduate Instructor), Women and Gender Studies Department:
University of Oregon (Graduate Instructor), Department of Sociology:
Biochemical Engineering |Thermodynamics | Fluid Mechanics | Process Dynamics and Control | Process Plant Safety | Environment Pollution Control
Reaction Engineering | Advanced Process Control
Biological Wastewater Treatment Techniques & Recycling | Unit Operations -I | Process Instrumentation and Control
CS F-111 Computer Programming Lab
CS F-213 Object Oriented Programming
CS F-342 Computer Architecture (Lab and Tutorial)
CS F-441 Computer Vision ( an Elective)
CS G-524 Advanced Computer Architecture (PG course)
As Instructor in Charge
Separation Process II (CHE F313)-Autumn Semester
Transport Phenomenon (CHE F414)- Autumn Semester
Process Equipment Design (CHE F412)- Spring Semester
Membrane Science and Engineering (CHE F423)-Autumn Semester
WILP (Work Integrated Learning Programme), Process Equipment Design (PE-ZC412)- Spring Semester
WILP (Work Integrated Learning Programme), Air Pollution Control Technologies (EE-ZG614)- Spring Semester
As Tutorial Instructor
Chemical Engineering Thermodynamics (CHE F213)-Autumn Semester
Thermodynamics (BITS F111)-Autumn Semester
Chemical Process Calculations (CHE F211)-Autumn Semester
Numerical Methods in Chemical Engineering (CHE F242)-Spring Semester
Heat Transfer (CHE F241)- Spring Semester
Process Design Principles-II (CHE F343)-Spring Semester
EE ZG623: Environmental Impact and Risk Assessment
BITS F110: Engineering Graphics
CE F342: Water & Waste Water Treatment (P)
BITS F240: Introduction to Environmental and Sustainable Systems Engineering
CHE F314- Process Design Principles – 1
CHE F312- Chemical Engineering Laboratory-1
BIO F110: Biology Laboratory
BIO C111 & BIO F111: General Biology
BIO C322: Ecology
BIO C342: General Physiology
BIO C411: Laboratory
BIO F216: Water, Sanitation & Solid Waste Management
BIO F241: Ecology & Environmental Science
BIO F376: Design Oriented Project
BIO F411: Laboratory
BIO G525: Environmental Biotechnology & Waste Management
BIO G661: Gene Toxicology
BIO G671: Bioconversion Technology
MPH G510: Biostatistics and Computers in Public Health
SAN G512: Sanitation and Public Health
BITS C213: Introduction to Environmental Studies
BITS C313: Lab Oriented Project
BITS C323 & BITS C324: Study Oriented Project
BITS F225: Environmental Studies
BITS G513: Study in Advanced Topics
BITS G540: Research Practice
BITS G629: Dissertation
TA C211: Measurement Techniques I
SSTM ZG523: Biological Treatment Principles and Design for Wastewater Systems
●CHEMICAL APPLICATIONS OF GROUP THEORY (Advanced Group Theory Course)-For Ph.D Students
●ELECTRONIC STRUCTURE THEORY (Advanced Quantum Mechanics Course)-For Ph.D Students
●ADVANCED INORGANIC CHEMISTRY (Group Theory & Inorganic Chemistry Course) -For Ph.D Students
●PHOTOPHYSICAL CHEMISTRY (Elective Course for M.Sc. students)
●ATOMIC & MOLECULAR STRUCTURE (Quantum Chemistry course for M.Sc. students)
●PHYSICAL CHEMISTRY II (Quantum Chemistry course for M.Sc. students)
●PHYSICAL CHEMISTRY III (Group Theory, Advanced Quantum Chemistry course for M.Sc. students)
●BONDING IN INORGANIC COMPOUNDS (Group Theory Course for M.Sc. students)
●CHEMICAL THERMODYNAMICS (Thermodynamics course for M.Sc. students)
●CHEMISTRY I (Physical Chemistry course for 1st year students)
●CHEMISTRY II (Inorganic & Organic course for 1st year students)
●INTRODUCTION TO ENVIRONMENTAL STUDY (Environmental science Course for 1st year students)
●GENERAL CHEMISTRY(for 1st year students)
●MEASUREMENT TECHNIQUES I (Lab Course for 1st year students)
●CHEMISTRY LABORATORY (Lab Course for 1st year students)
●DESIGN PROJECT
●COMPUTER PROJECT
●LAB PROJECT
●STUDY-ORIENTED PROJECT
●RESEARCH METHODOLOGY
FD courses
HD Courses
MATH ZC234 Linear Algebra and Optimization, Spring 2025
MATH F428 Time Series Analysis and Forecasting, Fall 2024
BITS F314 Game Theory and it's Applications, Spring 2023, Fall 2023, Spring 2024
MATH F420 Mathematical Modelling, Spring 2022
MATH F211 Mathematics-III (Differential Equations), Fall 2022, Fall 2024
MATH F112 Mathematics-II (Complex Analysis), Spring 2021
MATH F113 Probability and Statistics, Spring 2021, Fall 2022, Spring 2023, Fall 2023
MATH F444 Numerical solutions to ODE, Fall 2020
MTB 302 Ordinary Differential Equations, Fall 2014
MTB 401 Partial Differential Equations, Spring 2015
Year | Sem | Tutorial1 | Tutorial2 | Tutorial3 | Lecture1 | Lecture2 |
2020-21 | 1st sem | Electrical Science | ||||
2020-21 | 2nd sem | Electrical Science (2) | Microprocessor & Interfacing | |||
2021-22 | 1st sem | Electronic Devices | Analog & Digital VLSI Design | Physics & Modeling of Microelectronic Devices (IC) | ||
2021-22 | 2nd sem | Microelectronics | Physics & Modeling of Microelectronic Devices (WILP, IC) | |||
2022-23 | 1st sem | Electronic Devices | Analog & Digital VLSI Design | Digital Design | Physics & Modeling of Microelectronic Devices (WILP, IC) | |
2022-23 | 2nd sem | Analog Electronics | Microelectronics | Electrical & Electronic Tech (WILP, IC) | ||
2023-24 | 1st sem | Electronic Devices | Analog & Digital VLSI Design | Electrical Science | Electronic Devices (Instructor) | |
2023-24 | 2nd sem | Microelectronics | Analog Electronics | Signal & System | Microelectronics (Instructor) | |
2024-25 | 1st sem | Electronic Devices | Analog & Digital VLSI Design | Semiconductor Fabrication Technology (IC) | Analog & Digital VLSI Design (Instructor) |
First Degree (B.E.) Courses Taught
Higher Degree (M.E. in Microelectronics) Courses Taught
People: Sashideep Gutti and Kannan Ramaswamy along with other interested faculty in the Physics department
Aim: The primary vision of this group is to make undergraduate level Physics teaching exciting, engaging, and rewarding for students. This is a challenge as a University like BITS has students with varied interests and ambitions. In particular, one one hand there are students who are primarily looking for applications of Physics that could be turned into an idea for a startup, on the other hand there students who are purists. They want in depth presentation of ideas in Physics. It is therefore a big challenge for the instructors to capture the attention of students of a class of 500 students for an entire semester. Keeping this in mind, our aim is to create situations in the classroom that are rewarding for both categories of students. Furthermore, we have developed several classroom demonstrations to explain tough ideas like precession and Coriolis force. Our motto is to create activities that will let students learn!
Teaching methodology: Several teaching techniques need to be blended appropriately for creating an ambiance conducive to learning. It depends a lot on how students respond to the instruction in the first few days of the class. It appears that activity based learning is the way to go. In activity based learning there is minimal lecturing from the instructor. Instead the instructor plans activities that will make the students think and learn about concepts and ideas.
One such activity based teaching method is called Research Based Pedagogical Tool or RBPT in short. COESME, IISER, Pune has conducted several RBPT workshops across several parts of the country for the College teachers at various levels. Kannan Ramaswamy has participated in three RBPT workshops starting from the beginners to the advanced levels.
In the RBPT method, the instructor takes up a concept to be taught in the class and converts it in the form of research questions and activities that students will undertake as a part of the course. In particular, the research problem is chosen in such a manner that students are excited and motivated to carry out the various activities planned by the instructor. Importantly, RBPT method emphasizes student autonomy - students have to come up with the ideas themselves, so that they get a real feel of the research and the problem.
(An example of RBPT)
Publications:
Classroom Demonstrations:
Useful teaching related references and links
· www.facultyfocus.com (this link discusses several strategies on teaching and learning)
· Teaching and Learning STEM by Felder and Brent, Jossey – Bass, Wiley, 2016 (This is a very resourcelful book for instructors who are involved in teaching science, engineering and mathematics)
· How learning happens by Hendrick Kirschner and Paul A., Taylor and Francis, 2020 (A very interesting collection of ideas on educational psychology. It has several useful references for instructors.)
I was conferred the Award of Excellence in Teaching by BITS Pilani K K Birla Goa Campus on September 5, 2022.
UG Courses
Sr. No. |
Course Code |
Subject |
Role |
1. |
BITS F110 |
Engineering Graphics |
Instructor In-Charge |
2. |
ME/MF 342 |
Computer Aided Design |
Instructor In-Charge |
3. |
ME/MF F314 |
Design of Machine Elements |
Co-Instructor |
4. |
ME F211 |
Mechanics of Solids |
Tutorial Instructor |
5. |
ME F218 |
Advanced Mechanics of Solids |
Tutorial Instructor |
6. |
ME F215 |
Mechanical Engineering Lab |
Co-Instructor |
7. |
ME F343 |
Vibrations and Control |
Tutorial Instructor |
8. |
BITS F234 |
Introduction to Engineering Design |
Co-Instructor |
PG Courses
Sr. No. |
Course Code |
Subject |
Role |
1. |
ME G512 |
Finite Element Methods |
Instructor In-Charge |
2. |
ME G613 |
Advanced Finite Element Modeling and Analysis |
Instructor In-Charge |
WILP Courses
Sr. No. |
Course Code |
Subject |
Role |
1. |
DE ZG622 |
Computer Aided Analysis and Design |
Instructor In-Charge |
2. |
DE ZG613 |
Finite Element Method |
Instructor In-Charge |
· AAOC C111 (Probability and Statistics) · AAOC C222 (Optimization) · AAOC C312 (Operations Research) · BITS F114 (General Mathematics II) Calculus, Complex Analysis, Differential Equation · BITS F343 (Fuzzy Logic and Applications) · MATH C111 (Mathematics 1) · MATH C241 (Mathematics III-Differential Equations and its Applications) · MATH C311/MATH F311 (Introduction to Topology) · MATH F111 (Mathematics I)-Calculus · MATH F112 (Mathematics II)-Linear Algebra and Complex Analysis
|
· MATH F113 (Probability and Statistics) · MATH F211 (Mathematics III-Differential Equations and its Applications) · MATH F212 (Optimization) · MATH F242 (Operations Research) · MATH F353 (Statistical Inference and Applications) · MATH ZC111 (Probability and Statistics) · MATH ZC222 (Optimization) · MF F344 (Engineering Optimization) · POWAB ZC 242/POWTP ZC 242/POWJS ZC 242 (Linear Algebra & Optimization) · POWAB ZC234 (Linear Algebra & Optimization)
|
List of courses and labs that I am teaching/ have taught in BITS Pilani, Goa:
Development Economics
Political Economy of Development
Public Policy
Business Economics
Managerial Economics
Money & Banking
Public Finance
List of Courses taught at Undergraduate level (First Degree - FD)
List of courses taught at Master's/PhD level (Higher degree)
Designation |
Organization |
Duration |
Associate Professor |
BITS,Pilani- Dubai |
From 2018 onwards |
Associate Professor |
Annamalai University, India. |
16 years |
Lecturer |
MNM Jain Polytechnic,Chennai,India |
2years |
COURSES TAUGHT:
Inorganic Chemistry II
Solid State Chemistry
General Chemistry
Chemistry Laboratory
Advanced Inorganic Chemistry
Chemistry Project Lab
Chemistry Experimentation Lab
Instrumental Methods of Analysis
Digital Marketing
Digital Analytics
Marketing Management
Consumer Behaviour
Analytics for Competitive Advantage
Business Analytics
e-Business and Internet Marketing
Management Information Systems
Marketing Research
Brand Management
Laboratory Developed:
Courses Developed:
Teaching in Current Semester
Courses Taught
Vibration and Control |
(On-Campus: UG) |
Vibration and Acoustics |
(On-Campus: UG) |
Kinematics and Dynamics of Machinery |
(On-Campus: UG) |
Mechanics of Solids |
(On-Campus: UG) |
Machine Design |
(On-Campus: UG) |
Mechanisms and Machines |
(On-Campus: UG) |
Mechanical Vibration |
(On-Campus: UG) |
Workshop Practice |
(On-Campus: UG) |
Engineering Graphics |
(On-Campus: UG) |
Advanced Mechanics of Solids |
(On-Campus: UG) |
Dynamics of Machinery and Vibration |
(On-Campus: UG) |
Advanced Mechanics of Solids and Kinematics |
(On-Campus: UG) |
Measurement Techniques II |
(On-Campus: UG) |
Mechanical Engineering Lab |
(On-Campus: UG) |
Dynamics and Vibration |
(On-Campus: PG)(Off Campus: WILP) |
Tribology |
(On-Campus: PG) |
Mechanical System Design |
(On-Campus: PG) (Off Campus: WILP) |
Design Projects |
(On-Campus: PG) |
Material Testing and Technology |
(On-Campus: PG) |
Courses Taught at BITS Pilani - (ON-CAMPUS/OFF-CAMPUS (Work Integrated Learning Program))
Higher Degree Programs
Streams/ Branch Subjects (Code)
Manufacturing Systems and Engineering: Quality Control Assurance and Reliability (ME F443, MGTS F432), Total Quality Management (MSE ZG522), Mechatronics (ESLT ZG511)
Mechanical and Design Engineering: Mechanism and Robotics (ME G511)
First Degree Programs
Streams/ Branch Subjects (Code)
Manufacturing Engineering: Mechatronics and Automation (MF F311), Quality Control Assurance and Reliability (MF F443)
Mechanical Engineering: Robotics (EAC 441), Mechanism and Robotics (MEG 551), Work Shop Technology (TAC 112), Quality Control Assurance and Reliability (ME C443), Engineering Optimization (ME F344)
Engineering Technology: Quality Control Assurance and Reliability (ET ZC432)
Interdisciplinary: Optimization Technique (AAOC 222), Operations Research (AAOC 312)
2001-2002 Teaching assistant for the course - Introduction to Biomedical Engineering, Worcester Polytechnic Institute (WPI), USA
Teaching/Academic Assignments
1st Sem, 2021-22: WILP: Digital Electronics and Microprocessor (ES ZC263) (IC)
UG Courses (On Campus)
Subjects/courses taught: Undergraduate Level
Environmental Pollution Control |
Mass Transfer Operations |
Process Design Principles I |
Process Design Decisions |
Kinetics and Reactor Design |
Process Design Principles II |
Unit Operations |
Fluid flow operations |
Process Control |
Biochemical Engineering |
Selected Chemical Engineering Operations |
Process Equipment Design |
Process control and Instrumentation |
Measurement Techniques II |
Post Graduate Level
Environmental Systems Modeling |
Advanced Mass Transfer |
Computational Transport Phenomenon |
Advanced Separation Processes |
Air Pollution Control Technologies |
Environmental Management Systems |
Courses /Programe Developed /updated
Courses delivered to Industry and Faculty of other Institutes
Contributions To Continuing Education Programme (Short-Term Courses Etc.)
Short Term Courses/Workshop/Seminar Etc. Attended
Thermodynamics
General Chemistry
Chemistry laboratory
Environmental Sciences
Environment, Development and Climate Change
Instrumental Methods of Analysis
Biological Chemistry
Biochemical Engineering
Corrosion Engineering
Undergraduate
Postgraduate
Thermodynamics
Materials for Energy Applications
Biochemical Engineering
First degree courses
Chemistry - I
Chemistry - II
Measurement techniques - I
Instrumental methods of analysis
Chemistry of inorganic compounds
Chemistry project lab
Bonding in inorganic compounds
Structure and properties of materials
General chemistry
Chemistry laboratory
Inorganic chemistry – I
Inorganic chemistry – II
Electrochemistry: Fundamentals and applications
Higher Degree courses
Advanced inorganic chemistry
Bioinorganic chemistry
1. General Chemistry (CHEM F111)
2. Physical Chemistry-I (CHEM F211)
3. Physical Chemistry-IV (CHEM F312)
4. Electrochemistry Fundamentals and Applications (CHEM F327)
5. Thermodynamics (BITS F111)
6. Photochemistry and Laser Spectroscopy (CHEM F412)
7. Chemistry Laboratory (CHEM F110)
8. Instrumental Methods of Analysis Lab (CHEM F313)
9. Chemistry Laboratory-2 (CHEM F341)
1. General Chemistry (CHEM F111)
2. Physical Chemistry-I (CHEM F211)
3. Physical Chemistry-IV (CHEM F312)
4. Electrochemistry Fundamentals and Applications (CHEM F327)
5. Thermodynamics (BITS F111)
6. Photochemistry and Laser Spectroscopy (CHEM F412)
7. Chemistry Laboratory (CHEM F110)
8. Instrumental Methods of Analysis Lab (CHEM F313)
9. Chemistry Laboratory-2 (CHEM F341)
Higher Degree Programme:
Regular Courses:
Project Courses:
WILP Courses:
PhD Courses:
1. MATH F113: Probability and Statistics (Even Semester 2020-21, 2021-22, 2022-23, 2023-24)
Environmental Studies
BITS Pilani Hyderabad Campus
Applied Econometrics
Econometric Methods
Time Series Analysis & Forecasting
Computational Methods for Economics
Mathematical and Statistical Methods
Principles of Economics
Indian Economic Development
Marketing Research
PhD Courses: Study in Advanced Topics, Research Project, Research Practice, Reading Course, Teaching Practice, PhD Seminar & PhD Thesis.
Project Courses: Special Project, Study Oriented Project, Lab Oriented Project & Design Oriented Project.
TISS, Hyderabad Campus
Impact Evaluation
Philosophy and Methods of Social Research
Foundation of Data Analysis
Theories of Economic Development
Theories of Development
MT1 Lab, Quantum Optics, Laser Science and Technology, Atomic and Molecular Physics, Electromagnetic Theory
Semester 1
Semester 2
Semester 1
Semester 2
Semester 1
Semester 2
Semester 1
Semester 2
Courses taken in Jan-May Semester, 2017:
Courses to be taken in Jan/Mar-May/Jul Semester, 2022-23
Advanced & Applied Microbiology (HD, Lectures)
Biology Laboratory (IC, FD)
Research Project II (HD)
First Degree (Graduate)
Higher Degree (Post Graduate)
Higher Degree (Post Graduate)
Project Type Course
Instructor-in-charge for Project Type Courses ECON F266, ECON F366, ECON 367, ECON 376, ECON 377, ECON F491 for three semesters
Supervised students in the following research/project based courses:
BITS C797T- Ph.D. Seminar
BITS C799T- Ph.D. Thesis
BITS E661- Research Methodolgy-1
BITS G629- Higher degree Dissertation
BITS G540- Research Practice
BITS G513- Study in Advanced Topics
BITS C790T/452T- Independent Study
Teaching experience
Training:
Course Design and Development:
Courses Taught:
Course Number: CHEM F416
Years: 2023 (as instructor in charge)
Course Number: CHEM F243
Years: 2021, 2022
Course Number: CHEM F242
Years: As instructor in-charge: 2021, 2022, 2023
Course Number: CHEM G554
Years: 2021, 2022
Course Number: CHEM F313
Years: 2022 (Practical), 2023 (Practical)
Course Number: CHEM F111
Years: 2021 (Tutorial), 2022 (Tutorial), 2023 (Tutorial)
Course Number: CHEM F110
Year: 2021, 2022
1. Organic Chemistry II: A course focused uponstereochemistry and reaction mechanism in organic chemistry.
Course Number: CHEM F243
Years: 2021
2. Chemical Experimentation-I: A course on different laboratory techniques in organic chemistry.
Course Number: CHEM F242
Years: 2021 (as instructor in-charge)
3. Physical Methods in Chemistry: A course on the application of different physical methods that are used frequently in chemical analysis including spectroscopic, chromatographic, and diffraction techniques.
Course Number: CHEM G554
Years: 2021, 2022
4. Instrumental Methods of Analysis: A course on the application of different physical methods that are used frequently in chemical analysis including spectroscopic, chromatographic, and diffraction techniques.
Course Number: CHEM F313
Years: 2022 (Practical),
5. General Chemistry: A basic chemistry course for first-year undergraduate students covering key concepts in physical, organic and inorganic chemistry.
Course Number: CHEM F111
Years: 2021 (Tutorial), 2022 (Tutorial)
6. General Chemistry Lab: A basic lab course for first-year undergraduate students covering some representative experiments in physical, organic, and inorganic chemistry.
Course Number: CHEM F110
Year: 2021
7. Lab-oriented Project courses: A short-term research-basedproject coursefocused upon several aspects of crystal engineering.
Course Number: CHEM F366
Years: 2021, 2022
B.E. and M.Sc. Biological Sciences Programmes:
BIO F111: General Biology
BIO F110: Biology Laboratory
BIO F243: Genetics
BIO F411: Laboratory
BIO F413: Molecular Biology of Cell
BIOT F346: Genomics
M.E. Biotechnology Programme:
BIO G526: Cancer Biology
BIO G612: Human Genetics
BIO G524: Animal Cell Technology
BIO G542: Advanced Cell & Molecular Biology
BIO G515: Stem Cell & Regenerative Biology
Other Courses:
BIO F266: Study Project
BIO F366: Laboratory Project
BITS G513: Study in Advanced Topics
BITS G540: Research Practice
BITS G629: Dissertation
BITS G529: Research Project
1) Agency09 should have to Handover the website
2) Maintaence turn on
3) Webmaster training from Agency09
4) Webmaster should be handle Wordpress & other technologies
Semester-wise details:
2018-19 (2nd Semester: Jan - May 2019)
2021-22 (2nd Semester: Jan – May 2022)
2021-22 (1st Semester: Aug – Dec 2021)
2020-21 (2nd Semester: Jan – May 2021)
2020-21 (1st Semester: Aug – Dec 2020)
2019-20 (2nd Semester: Jan – May 2020)
2019-20 (1st Semester: Aug – Dec 2019)
2018-19 (2nd Semester: Jan – May 2019)
2018-19 (1st Semester: Aug – Dec 2018)
BITS Pilani (Professor at present)
With BITS Pilani (since 2002)
Visvesvaraya National Institute of Technology, Nagpur, India (Lecturer 1995 - 2002)
On Campus courses
Off campus Work Integrated learning program courses
Courses of B.S. Power Engineering, B.S. Process Engg, and BS Engineering design programs for various Industries like NTPC; Tehri Hydro; NDPL, New Delhi; Hindalco, Reanukut and Renusagar; ESSAR Power, Aditya Birla Group Cement business; Hindalco Copper, Dahej; Birla Cellulosic, Kharach; Indogulf Fetilizers, Jagdishpur; L&T IES, Vadodara
Visvesvaraya National Institute of Technology (formerly Visvesvaraya Regional College of Engineering), Nagpur (Lecturer 1995 to 2002)
Various courses taught in the following programs
As a guest faculty taught some courses in
Thesis Supervised
Higher Degree - 14
First Degree – 24
Involvement in Administrative Activities
Coordinator:
Other
Question Paper Moderation, Setting and Evaluation at Nagpur University.
Work-Integrated Learning Programs (WILP)
Associate Professor, BITS Pilani Hyderabad Campus, India Mar 2023 – Till date
Assistant Professor, BITS Pilani Hyderabad Campus, India July 2015 – Feb 2023
Post Graduate (PG) Courses offered: 8
Under Graduate (UG) Courses offered: 6
UG & PG Course Projects Guided: 70+
New Course Proposed: Structural Health Monitoring, PG.
Lab Developed: Structural Dynamics Lab, PG, Total ten lab sessions with simulations and experiments.
Assistant Professor, National Institute of Technology Sikkim, India Sept 2014 – April 2015
Under Graduate (UG) Courses offered: 3
Lab Developed: Surveying instruments and lab setup, UG.
Institutional responsibility: In-charge of Construction and Maintenance.
Teaching Assistant, Indian Institute of Technology Kharagpur, India July 2010 – Aug 2014
Lecturer, Indian Institute of Aeronautical Engineering and Information Technology, Pune, India Aug 2009 – June 2010
ALL COURSES TAUGHT/BEING TAUGHT
Courses Handled
Network Theory
Electrical technology
Applied Electronics and Instrumentation
Linear Control Systems
Machines Lab
Electrical Technology Lab
Operation Research (M. Tech)
Electromechanical Energy Conversion (BITS)
Power Systems (BITS)
Electrical Sciences (BITS)
Electrical Machines Lab
Transducers and Measurement Systems (BITS)
Power System Operation and Control (BITS, WILP)
Control Systems (BITS)
Power Electronics (BITS)
Network Lab
Microprocessors Lab
Power System lab-I
Power System lab-II
Electromagnetic Theory tutorial
Matlab Lab
Power System Analysis
Electrical Machines-II
Power Systems Engineering I (BITS, WILP) (Online Course)
Control System Simulation Lab
Control Systems Lab (BITS)
MT-II Lab (BITS)
Mech. Electrical Machines Lab. (BITS)
Electronic Instrumentation Lab (BITS)
Electrical Machines (BITS)
Modern Control Systems (BITS)
Instrumental in establishing the Labs for FD students in the EEE department
Electrical Machines Lab
Control Systems Lab
Power systems Lab
Instrumentation Lab
Polymer Chemistry (CHEM F325)
Instrumental Methods of Analysis (CHEM F391)
Physical Methods in Chemistry (CHEM G554)
Chemical Experimentation Laboratory (CHEM F341)
General Chemistry (CHEM F111)
Chemistry Laboratory (CHEM F110)
UG
PG
WILP
Industry certification courses
Twenty two years of comprehensive teaching experience
At BITS Pilani Hyderabad Campus
PHA G535 – Biomaterials
PHA G613 – Pharmaceutical Biotechnology
PHA F315 - Pharmaceutical Formulations II
PHA F414 – Biopharmaceutics
BSPO*ZC- Pharmaceutical Formulation II (Work Integrated Learning Program)
First and Higher degree
Inorganic Chemistry
Structure and properties of materials
Measurement Techniques ( I)
Measurement Techniques (II)
Chemical Process Calculations
Selected Chemical Engineering Operations
Chemical Process Technology
Corrosion Engineering
Polymer Technology
Engineering Chemistry
Separation Processes II
Engineering Measurements
Electives:
Polymer Technology
Study Oriented Project
Lab Oriented Project
Design Project
Special Project
I enjoy teaching and endeavor to make my classes interesting/interactive for students. The courses I have taught till now include:
The course is designed for the students of M.E. Biotechnology and M. Sc. Biological Sciences Final Year. It focuses on the molecular aspects of parasitic infections, on vector biology and their control. It will appeal to students who wish to strengthen their training before embarking upon a research career in Entomology, Parasitology, Molecular Biology or Immunology. The course covers aspects for various diseases like malaria, Kala-Azar, filaria, Dengue, etc. , that are caused by protozoan parasites, bacteria or viruses. The course will focus on the modes of infection, life cycle of organism, infectivity pattern, and methods of diagnosis, prophylaxis and treatments to these diseases. The course will also detail about the life cycle of vectors responsible in transmitting the causative organisms of these diseases and their role in the life cycle of the causative organisms.
Assistant Professor in Department of Mechanical Engineering, Birla Institute of Technology and Science Pilani, Dubai Campus (April 2022 to Ongoing)
Teaching Assistant in Department of Mechanical Engineering, University of California, Riverside (September 2017 to June 2020)
Bachelor of Engineering (B.E)
1) Workshop Practice (ME F112/F110): Enrolled Students = 193
2) Design of Machine Elements (ME F314): Enrolled Students = 16
Bachelor of Engineering (B.E)
1) Workshop Practice (ME F112/F110): Enrolled Students = 160
2) Computer-Aided Design (ME F318): Enrolled Students = 22
Master of Engineering (M.E)
1) Research Practice (BITS G540): Enrolled Student = 1
Bachelor of Engineering (B.E)
1) Workshop Practice (ME F112/F110): Enrolled Students = 171
Master of Engineering (M.E)
1) Material Technology and Testing (DE G631): Enrolled Students = 11
2) Research Practice (BITS G540): Enrolled Students = 6
HSS F247 |
Social Informatics(IC) |
GS F342 |
Computer-Mediated Communication (IC) |
BITS C394 |
Mass Media Content and Design / GS F321 Mass Media Content and Design (IC) |
BITS F112 |
Technical Report Writing / TA C312 Technical Report Writing (IC) |
BITS F437 |
Technical Communication (IC) |
MBA C417 |
Managerial Communication (IC) |
ENGL C442 |
Effective public Speaking |
TA C231 |
Business Communication (IC) |
Communicative English (Audit Course) |
|
Research Project I and II Course (for PhD Students) |
|
Study in Advanced Topic (for PhD Students) |
|
Reading Course (for PhD students) |
|
First Degree Thesis |
|
Study Oriented Projects / Computer Oriented Projects |
|
Summer Term Courses (Introduction to Mass Communication, Computer-Mediated Communication, SOP) |
|
GRE Preparation Course |
|
TA ZC312 |
Technical Report Writing (Off-Campus) |
QMJZG 536 |
Technical Communication (Off-Campus) |
POWAB ZC |
Technical Report Writing (Off-Campus) |
PAEN ZC101 |
English Language Skills (Off-Campus) |
Instructor for Diploma Course(English Language Skills) for PAN-African eNetwork Project (Govt. of India Initiative) |
First Degree Courses
Higher Degree Courses
Lab |
Topic |
Lab Sheet |
|
Lab1 |
SOA & Web Services |
|
|
Lab2 |
MPI |
17-Aug-2017 |
|
Lab3 |
MapReduce and Hadoop |
24-Aug-2017 |
|
Lab4 |
Apache Spark introduction |
31-Aug-2017 |
|
Lab5 |
Microsoft Azure: Virtual Machine creation, and configuration. Storage services. Load balancing services. Demonstration of IaaS. |
14-Sep-2017 |
|
Lab6 |
Implementing Consensus protocols using MPI |
19-Sep-2017 |
|
Lab7 |
Libvirt using KVM |
31-Oct-2017 |
|
Lab8 |
Azure Storage, Azure App Services |
|
14-Nov-2017 |
Lab9 |
Azure Databases, Azure Machine Learning Studio |
|
16-Nov-2017 |
UG Courses
PG Courses
Since last few years I am enjoying teaching these courses using various teaching pedagogy at undergraduate/postgraduate level.
Unlike traditional classroom teaching pedagogy, recently this subject was offered using MOOC, which involves flipped classroom teaching pedagogy. It is a form of blended learning in which students learn new content, online, by watching video lectures. And what used to be homework (assigned problems) is now done in class with instructor offering more personalized guidance and interaction with students, instead of lecturing.
The subject was offered using COURSERA platform and then Edx platform. We used the tools and technology of coursera (later EdX) for offering Computer Programming course via flipped classroom teaching pedagogy.
Click here for the handout of Computer Programming course.
Other than the above courses, in past I had also enjoyed teaching these courses.
Apart from GRE and Communicative English classes, I am also associated with Work Integrated Learning Programmes of BITS and deliver online classes for Technical Report Writing. I do supervision for PhD projects, First Degree theses and several Study Oriented Projects.
And the following courses I like to teach as and when they are offered:
8. Chemical Experimentation Laboratory-I : A practical course for the M.Sc. chemistry (Hons.) students which includes detection of special elements (nitrogen, sulfur and halogens) and functional groups in an organic sample, synthesis of various class of important organic molecules, monitoring the progress of an organic reaction by thin layer chromatography (TLC), separation of different type (acidic and basic) of organic compounds by simple basic or acidic aqueous work up with organic solvent, separation and isolation of organic compounds from a mixture by column chromatography, natural product isolation.
10. Heterocyclic Chemistry : A theory course for the Ph.D. students which includes nomenclature of heterocyclic molecules, chemistry of three and four membered heterocycles, reactivity of aromatic heterocycles, synthesis and reactions of various five- and six-membered heterocyclic molecules such as furan, thiophene, pyrrole, imidazole, thiazole, oxazole, indole, benzofuran, pyridine, quinolone, and isoquinoline, and synthesis of selected heterocyclic natural products and drug molecules
11. Physical Methods in Chemistry : A theory course for the Ph.D. students which describes the principles and practice of modern instrumental methods for chemical analysis. This course includes various spectroscopic techniques such as UV-Visible, Infrared, XPS, XRF, NMR (1H, 13C and other elements, NOE, correlation spectroscopies), ESR, CD, Mass spectroscopy, atomic absorption and emission spectroscopies, fluorescence spectroscopy and microscopy and chromatographic techniques such as GC/HPLC. Other topics include electroanalytical methods, thermal analysis, Mossbauer spectroscopy and diffraction methods like SCXRD and PXRD
UG Courses
PhD Courses
Odd Semester (2023-2024)
'When one teaches, two learn' -
I have been involved in teaching various courses at the first degree and higher degree level in capacity of Instructor-in- charge/ Instructors. I have also been involved in the course planning and development of many of these. Besides this, I have initiated new courses in Immunology and Cancer Biology. I have coordinated the course restructuring of M.Sc. and ME programs of the Biological Science Department as DCA Convenor from 2012 -2014.
*Courses Developed:
Applied Estimation Theory [EEE G641] (Status: Approved)
Green Communications and Networks [EEE F430] (Status: Approved)
Applied Probability and Stochastic Processes (Status: Submitted to Department Committee for Academics)
Interdisciplinary course: Quantum communications and networks (Status: Submitted to Department Committee for Academics)
*Labs/Assignments/Tutorials/Projects/Seminars developed/introduced for the following courses:
Communication Systems (MATLAB based experiments, practice questions sets)
Advanced digital communication (MATLAB tutorials, SDR based experiments, assignments, projects)
Mobile telecommunications and networks (MATLAB tutorials, assignments, seminars, SDR based experiments)
Coding theory and practice (MATLAB based experiments, demos, projects, seminars)
Advanced satellite communication (MATLAB assignments, projects)
Applied estimation theory (MATLAB based assignments, projects, seminars)
Automotive communication systems (MATLAB and VANET simulator based labs)
Advanced digital signal processing (MATLAB based assignments, projects, seminars)
Signals and systems (MATLAB demos, MATLAB Tutorial)
*Courses (Teaching/Taught)
Number of distinct courses taught (on-campus): Lecture (10), Tutorial (6)
Number of courses taught (off-campus): Lecture (01)
[Aug. 2024- Dec 2024]
First degree: Communication Systems (Lecture, Lab, Tutorial)
First degree: Electromagnetic theory (Tutorial)
[Jan. 2024- May 2024]
First degree: Green Communications and Networks (Lecture)
Information Theory and Coding (Tutorial)
Electrical Sciences (Tutorial)
[Aug. 2023- Dec 2023]
First degree/Higher degree: Satellite Communications (Lecture)
Higher degree: Advanced Digital Signal Processing (Lecture & Lab)
[Jan. 2023- May 2023]
First degree: Green Communications and Networks (Lecture)
[Mar. 2023- Jul. 2023]
First degree: Electrical Sciences (Tutorial)
[Aug. 2022- Dec. 2022]
First degree/Higher degree: Satellite Communications (Lecture)
Higher degree: Advanced Digital Signal Processing (Lecture)
[Jan. 2022- May 2022]
First degree:
Signals and systems (Lecture, Tutorial)
Analog electronics(Tutorial)
[Aug. 2021- Dec. 2021]
Higher degree: Applied estimation theory (Lecture)
Coding theory and practice (Lecture)
[Mar. 2021- Jul. 2021]
Higher degree: Advanced digital communication (Lecture)
[Jan. 2021- May 2021]
Automotive communication systems [WILP course]
First degree: Signals and Systems (Tutorial)
[Nov. 2020- Mar. 2021]
Higher degree: Coding theory and practice (Lecture)
[Aug. 2020- Dec. 2020]
Higher degree: Applied estimation theory (Lecture)
[Jan. 2020- May 2020]
Higher degree: Advanced digital communication (Lecture)
First degree: Satellite communication (Lecture)
[Aug. 2019- Dec. 2019]
Higher degree: Applied estimation theory (Lecture), Coding theory and practice (Lecture)
First degree: Communication Systems (Tutorial)
[Jan. 2019- May 2019]
Higher degree: Advanced digital communication (Lecture)
First degree: Mobile Telecommunications and Networks (Lecture)
[Aug. 2018- Dec. 2018]
Higher degree: Advanced satellite communication (Lecture)
Advanced digital signal processing (Lecture)
First degree: Communication Systems (Lecture)
[Jan. 2018- May 2018]
Higher degree: Advanced digital communication (Lecture)
First degree: Signals and systems (Tutorial)
First degree: Electrical sciences (Tutorial)
[Aug. 2017- Dec. 2017]
Higher degree: Advanced satellite communication (Lecture)
First degree: Communication Systems (Lecture, Lab, Tutorial)
[Jan. 2017- May 2017]
Higher degree: Advanced digital communication (Lecture)
First degree: Mobile Telecommunications and Networks (Lecture)
First degree: Signals and Systems (Tutorial)
[Aug. 2016- Dec. 2016]
Higher degree: Advanced satellite communication (Lecture)
First degree: Communication Systems (Lecture, Lab, Tutorial)
[Jan. 2016- May 2016]
Higher degree: Advanced digital communication (Lecture)
First degree: Mobile Telecommunications and Networks (Lecture)
[Aug. 2015- Dec. 2015]
First degree: Satellite communication (Lecture)
First degree: Data communications and networking (Lecture)
[Jan. 2015- May 2015]
Higher degree: Advanced digital communication (Lecture)
First degree: Microprocessor programming and interfacing (Tutorial)
Undergraduate level
Postgraduate level
Semester Wise Teaching
Year |
Semester – I |
Semester – II |
2023 – 2024 |
Petroleum Refining Technology (IC) |
Process Dynamics and Control (IC) |
Chemical Engineering Lab – I (CFD - COMSOL Lab) (IC) |
|
|
2022 – 2023 |
Petroleum Refining Technology (IC) |
Process Dynamics and Control (IC) |
Chemical Engineering Lab – I (CFD - COMSOL Lab) (IC) |
|
|
2021 – 2022 |
Petroleum Refining Technology (IC) |
Process Dynamics and Control (IC) |
Chemical Engineering Lab – I (CFD - COMSOL Lab) (IC) |
Transport Phenomena (IC) |
|
2020 – 2021 |
Petroleum Refining Technology (IC) |
Process Dynamics and Control (IC) |
Chemical Engineering Lab – I (CFD - COMSOL Lab) (IC) |
Transport Phenomena (IC) |
|
2019 – 2020 |
Petroleum Refining Technology (IC) |
Process Dynamics and Control (IC) |
Chemical Engineering Lab – I (CFD - COMSOL Lab) (IC) |
Transport Phenomena (IC) |
|
2018 – 2019 |
Petroleum Refining Technology (IC) |
Process Equipment Design (IC) |
Chemical Engineering Lab – I (CFD - COMSOL Lab) (IC) |
Process Dynamics and Control (IC) |
|
2017 – 2018 |
Fluid Mechanics (IC) |
Process Equipment Design (IC) |
Chemical Engineering Lab – I (CFD - COMSOL Lab) (I) |
Petroleum Refining Technology (IC) |
|
2016 – 2017 |
Transport Phenomena (IC) |
Process Equipment Design (IC) |
Chemical Engineering Lab – I (CFD - COMSOL Lab) (I) |
Chemical Engineering Lab – II (Process Control + Reaction Engg) (IC) |
|
2015 – 2016 |
Transport Phenomena (IC) |
Transport Phenomena (IC) |
Chemical Engineering Lab – I (CFD - COMSOL Lab) (I) |
Chemical Engineering Lab – II (Process Control + Reaction Engg) (I) |
|
2014 – 2015 |
Transport Phenomena (IC) |
Transport Phenomena (IC) |
Chemical Engineering Lab – I (CFD - COMSOL Lab) (I) |
Chemical Engineering Lab – II (Process Control + Reaction Engg) (I) |
|
2013 – 2014 |
Fluid Mechanics (IC) |
Transport Phenomena (IC) |
Transport Phenomenon (IC) |
Chemical Engineering Laboratory – II (Process control + Reaction Engg) (Instructor –In- Charge (IC)) |
|
2012 – 2013 |
Fluid Mechanics (IC) |
Mathematical methods in Chemical Engineering (Postgraduate Level) (IC) |
Transport Phenomena (IC) |
Transport Phenomena (IC) |
|
2011 – 2012 |
Transport Phenomenon (IC) |
Fluid Flow Operations (IC) |
Heat Transfer Operations (Lab) (I) |
Transport Phenomenon (IC) |
|
2010 – 2011 |
Heat Transfer Operations (Lab) (I) |
Fluid Flow Operations (IC) |
|
Transport Phenomenon (IC) |
|
|
Measurement Techniques – II (Lab) (I) |
*IC - Instructor-in-Charge of a course
I - Instructor in a course
Involved in teaching undergraduates and post graduate students enrolled in M.Sc dual degree and PhD program.
CHEM F111: General Chemistry (Quantum Chemistry, spectroscopy, basic organic chemistry, coordination chemistry)
CHEM F110: Chemistry Laboratory (laboratory experiments in the rea of organic, inorganic and physcial chemistry)
CHEM F212: Organic Chemistry-I (Physical aspects of organic reactions and functional group chemistry)
CHEM F242: Chemical Experimentation-I (Analysis, synthesis, estimation, purification of organic compounds)
CHEM F313: Organic Chemistry-III (Reagent Chemistry and Retrosynthetic Analysis)
CHEM F 342: Organic Chemistry-IV (Chemistry of biomolecules and selected Heterocyclic compounds)
CHEM F415: Frontiers in Organic Synthesis (Advance topics of organic chemistry)
BITS G561: Heterocyclic Chemistry (Advanced course on heterocyclic chemistry)
CHEM G551: Advanced Organic Chemistry (Advanced topics in organic chemistry)
Nanobiotechnology
Recombinant DNA Technology
Genetic Engineering Techniques
Experiments in Biotechnology
Introduction to Pharmaceutical Biotechnology
Cell and Tissue Culture
General Biology
Biology Lab
Sl. No. | COURSE | UG/PG/WILP |
1 | CHE G558 CHEMICAL PROCESS OPTIMIZATION | PG |
2 | CHE F342 PROCESS DYNAMICS AND CONTROL | UG |
3 | CHE F471 ADVANCE PROCESS CONTROL | UG |
4 | CHE F313 SEPARATION PROCESSES - II | UG |
5 | CHE F312 CHEMICAL ENGINEERING LAB - I | UG |
6 | CHE G533 PETROLEUM PRODUCT CHARACTERIZATION | PG |
7 | CHE F341 CHEMICAL ENGINEERING LAB - II | UG |
8 | CHE F244 SEPARATION PROCESSES - I | UG |
9 | CHE G617 PETROLEUM REFINERY ENGINEERING | PG |
10 | CHE C473 ADVANCE PROCESS CONTROL | UG |
11 | CHE C441 PROCESS CONTROL | UG |
12 | PECF/PEHZ ZC351 MASS TRANSFER | WILP |
13 | CHE C361 MASS TRANSFER OPERATIONS | UG |
14 | CHE G614 ADVANCED HEAT TRANSFER | PG |
15 | ES C112 THERMODYNAMICS | UG |
16 | CHE C413 PROCESS PLANT SAFETY | UG |
17 | CHE G512 PETROLEUM REFINING & PETROCHEMICALS | UG |
18 | ET ZC362 ENVIRONMENTAL POLLUTION CONTROL | WILP |
19 | CHE F418 MODELING AND SIMULATION IN CHEMICAL ENGG | UG |
20 | CHE F343 PROCESS DESIGN PRINCIPLES - II | UG |
21 | PEVA ZC453 PROCESS CONTROL AND INSTRUMENTATION | WILP |
22 | PEHZ ZC383 EXTRACTIVE METALLURGY | WILP |
23 | HUM C383 SRIMAD BHAGAVAD GITA | UG |
24 | CHE F211 CHEMICAL PROCESS CALCULATIONS | UG |
PhD Thesis
Institution |
Position |
Period |
|
From |
To |
||
BITS Pilani |
Professor, Department of Chemical Engineering |
March, 2023 |
Till date |
BITS Pilani |
Associate Professor, Department of Chemical Engineering |
August, 2018 |
February, 2023 |
BITS Pilani |
Assistant Professor, Department of Chemical Engineering |
July, 2010 |
July 2018 |
BITS Pilani |
Lecturer, Department of Chemical Engineering |
June, 2004 |
June, 2010 |
BITS Pilani |
Assistant Lecturer, Department of Chemical Engineering |
July, 2003 |
M |
S.No. |
Course Title and Course No. |
Postgraduate or Undergraduate |
|
Environmental Management Systems – CHE G 513 |
PG |
|
Environmental Management Systems - EE ZG515/SSTM ZG527 |
WILP Course |
|
Environmental Sampling and Analytical Methods - SSTM ZG516 |
WILP Course |
|
Polymer Technology – CHE G 522 |
PG |
|
Thermodynamics – BITS F 111 |
UG |
|
Structures & Properties of Materials |
UG |
|
Chemical Process Calculations – CHE F 211 |
UG & WLPD |
|
Process Design Decisions |
UG |
|
Environmental Pollution Control – CHE F 411 & ET ZC 362 |
UG & WLPD |
|
Heat Transfer – CHE F 241 |
UG |
|
Heat Transfer and Fluid Mechanics Lab |
UG |
|
Chemical Process Technology – CHE F 419 |
UG |
|
Advanced Separation Techniques – CHE G 551 |
PG |
|
Engineering Chemistry – CHE F 214 |
UG |
|
Nanotechnology for Renewable Energy and Environment – BITS F 429 |
PG & UG elective |
|
Biochemical Engineering – CHE F 421 |
UG |
|
Process Design Principles – CHE F 314 |
UG |
|
Environmental Studies (BITS F225) |
UG |
|
Research Methodology (BITS G661) |
PG |
|
Chemical Engineering Lab – II CHE F 341 |
UG |
VLSI Architectures
Reconfigurable Computing
Hardware Software Co-Design
VLSI Architectures
Reconfigurable Computing
Hardware Software Co-Design
Computer Architecture
Digital Design
Digital Electronics and Computer Organization
Microprocessors Programming and Interfacing
Embedded Systems
Microelectronic Circuits
Electrical Sciences
Electrical Sciences-I
Electrical Sciences-II
Measurement Techniques-II
Digital Electronics and Microprocessors
Analog Electronics
Antennas and Wave Propagation
Audio and Video Engineering
Academic Year
|
Semester | Theory |
Laboratory | ||
2020-21 |
Odd |
BITS F111 Thermodynamics | ME F110 Workshop Practice | ||
ME F212 Fluid Mechanics | |||||
2019-20 |
Even |
BITS F111 Thermodynamics | ME F110 Workshop Practice | ||
Odd |
BITS F111 Thermodynamics | ME F110 Workshop Practice | |||
|
ME F415 Gas Dynamics |
||||
2018-19 | Even | BITS F111 Thermodynamics | ME F110 Workshop Practice | ||
|
ME F482 Combustion | ||||
Odd |
BITS F111 Thermodynamics | ME F110 Workshop Practice | |||
|
ME F212 Fluid Mechanics |
|
|||
2017-18 |
Even |
BITS F111 Thermodynamics | ME F110 Workshop Practice | ||
ME F482 Combustion | |||||
Odd | ME F311 Heat Transfer | ME F110 Workshop Practice | |||
ME F420 Power Plant Engineering |
2020: 1. Machine Tool Engineering (IC)
2. Engineering Optimization (I)
3. Engineering Graphics (I)
2021: 1. Machine Tool Engineering (IC)
2. Engineering Optimization (IC)
3. Engineering Graphics (I)
2022: 1. Advanced Manufacturing Process (IC)
2. Engineering Optimization (IC)
3. Manufacturing Process Laboratory (I)
2023: 1. Manufacturing Process (I)
2. Manufacturing Process Laboratory (I)
2024: 1. Advanced Manufacturing Process (IC)
2. Advanced Manufacturing Process laboratory (IC)
S.No |
Course Name |
Year |
1 |
Electrical Sciences – I |
2009-2010 2011-2012 |
2 |
Measurement Technique – II |
2009-2010 |
3 |
Circuits and Signals |
2009-2010 |
4 |
Microprocessors and Interfacing |
2009-2010 2014-2015 2015-2016 2016-2017 2017-2018 2018-2019 2019-2020 2020-2021 |
5 |
Microelectronic Circuits |
2010-2011 |
6 |
Power Electronics |
2010-2011 |
7 |
Digital Image Processing |
2011-2012 2012-2013 2013-2014 2014-2015 2015-2016 2016-2017 2017-2018 2018-2019 2019-2020
2020-2021 |
8 |
Electrical Sciences |
2011-2012 |
9 |
Microelectronic circuits |
2010-2011 2012-2013 2013-2014 |
10 |
Electronic Devices |
2012-2013 |
11 |
Communication Systems |
2014-2015 2015-2016 2016-2017 2017-2018 2018-2019 2019-2020 2020-2021 2021-2022 |
12 |
Network Security (M.E Software Systems) |
2012-2013 |
13 |
VLSI Design (M.E Microelectronics) |
2014-2015 2016-2017 2019-2020 2020-2021 |
14 |
Embedded System Design |
2015-2016 2018-2019 |
15 |
Analog IC Design |
2016-2017 |
16 |
Reconfigurable Computing |
2017-2018 2019-2020 |
17 |
Digital Design |
2021-2022 |
18 |
Hardware Software Co-Design |
2012-2013 |
19 |
Internet of Things |
2022-2023 |
At BITS Pilani Hyderabad Campus -
Elsewhere -
First Semester (2024-25):
Second Semester (2023-24):
First Semester (2023-24):
Second Semester (2022-23):
Spring Semester 2024
Course - Analog Electronics
Tutorial- Analog Electronics
Lab 1 - Analog Electronics Laboratory
Lab 2 - Control Systems Laboratory
Fall Semester 2023
Course 1 - Electronics Instruments and Instrumentation Technology
Tutorial- Electronics Instruments and Instrumentation Technology
Lab 1 - Electronics Instruments and Instrumentation Technology lab
Lab 2 - Internet of Things lab
Spring Semester 2023
Course 1 - Industrial Instrumentation and Control
Tutorial 1 - Industrial Instrumentation and Control
Tutorial 2 - Analog Electronics
Fall semester 2022
Course 1 - Digital design
Tutorial- Digital design
Lab- Digital Design Laboratory
Spring Semester 2022
Course 1 - Industrial Instrumentation and Control
Tutorial- Industrial Instrumentation and Control
Lab- Internet of Things lab
Fall semester 2021
Course 1 - Digital design
Course 2 - Internet of Things
Tutorial- Digital design
Lab- Digital Design Laboratory
Summer Term:
Course and Lab: Analog Electronics
Spring Semester 2021
Course - Analog Electronics
Tutorial- Analog Electronics and Electrical Sciences
Lab- Analog Electronics Laboratory
Fall semester 2020
Course - Analog Electronics
Tutorial- Analog Electronics and Electrical Sciences
Lab- Analog Electronics Laboratory
Spring semester 2020
Course - Electrical Sciences
Tutorial- Electrical Sciences
Lab- Analog Electronics Laboratory
Fall semester 2019
Course- Transducers and Measurement systems
Tutorial- Transducers and Measurement systems and Digital design
Lab- Electronics Instrumentation Laboratory and Digital design Laboratory
Spring semester 2019
Course- Analog Electronics
Tutorial- Analog Electronics
Lab- Analog Electronics Laboratory
Fall semester 2018
Course- Transducers and Measurement systems
Tutorial- Transducers and Measurement systems and Electrical Sciences
Lab- Electronics Instrumentation Laboratory
Courses taught prior to joining BITS
Courses Taught:
Advanced Calculus
Operations research
Linear Algebra
Complex Variables
Differential equations
Optimization
Probability and Statistics
Qualitative Properties of Ordinary Differential Equations
Partial differential equations
Numerical Analysis
Quantum Information and Computing
Mathematical Foundations for Data Science
Second Semester 2021 - 2022
First Degree Courses
Higher Degree Courses
WILP Courses
Undergraduate Level :
Post Graduate Level :
At Arizona State University
CEE 353 : Civil Engineering Materials (Summer 2017 and Summer 2018)
At BITS-Pilani, Hyderabad Campus
AY 2023-24
S. No. |
U.G. Course |
P.G. Course |
1. |
Mechanics of Solids (CE F211) Lecture |
Prestressed Concrete Structures (CE G614) Lecture |
2. |
Design of Steel Structures ( CE F343) Lecture, Tutorial |
Pavement Material Characterization (CE G534) Lecture |
3. |
Analysis of Structures (CE C241) Lecture, Tutorial |
Advanced Steel Structural Analysis (CE G612) Lecture |
4. |
Engineering Graphics (TA C111) Tutorial & Practical |
Infrastructure Planning and Management (CE G520) Lecture |
5. |
Measurement of Technique-II (TA C222) Practical |
Advanced Concrete Structures (CE G613) Lecture |
6. |
Civil Engineering Practice (TOC C213) Lecture |
Advanced Structural Design (CE G554) Lecture |
7. |
Structural Dynamics (CE F432) Lecture |
Dynamics of Structures (CE G551) Lecture |
8. |
Design of Concrete Structures (CE C381) Lecture, Tutorial & Practical |
Advanced Structural Analysis (CE G617) Lecture |
9. |
Design of Bridge Structures (CE C422) Lecture |
Earthquake Engineering (CE G615) Lecture |
10. |
Construction Materials (CE F214) Lecture & Tutorial |
Advanced Structural Mechanics & Stability (CE G552) |
11. |
Computer Applications in Civil Engineering (CE F416) Lecture |
|
12. |
Introduction to Finite Element (CE F435) Lecture |
Analysis of Structures (CE F241) Lecture, Tutorial
Off-Campus:
On-Campus:
Courses Taught (July, 2007 – May, 2023):
Tutorial: Thermodynamics BITS F111
Lab : Physics Lab
1. Mathematics Laboratory at IIT Ropar
2. Mathematical Modeling and Simulation, Differential Equations and Applications at DA-IICT Gandhinagar
2018-2019 (First Semester)
Algebra I (MATH F215) (Tutorial: FB 6.36/10), Mathematics III (MATH F211) (Tutorial: FB 9.75/10, 5.5/10)
2018-2019 (Second Semester)
Probability & Statistics (MATH F113) (Tutorial: FB 9.88/10, 10/10), Mathematical Methods (MATH F241) (Lecture: FB 6.86/10, Tutorial: FB 7.27/10),
2019-2020 (First Semester)Mathematical Methods (MATH F241) (IC) (Lecture: FB 9.65/10, Tutorial: FB 10/10), Probability & Statistics (MATH F113) (Lecture: FB 8.68/10, Tutorial: FB 8.8/10), Mathematical Modeling (MATH F420) (IC) (Lecture: FB 9.93/10), Mathematical Modeling (MATH F420 Summer-Term) (IC) (Lecture: FB 9.88/10)
Mathematics III (MATH F211) (Lecture: 7.71/10)
2022-2023 (Second Semester)
Mathematical Modeling (MATH F420) (IC) (Lecture: 9.64/10)
2023-2024 (First Semester)
Mathematical Modeling (MATH F420) (IC) (Lecture Feedback: 10/10, Candidates provided feedback: 8 out of 35)
Mathematics III (MATH F211) (Lecture Feedback: 9.95/10, Candidates provided feedback: 11 out of 120)
2023-2024 (Second Semester)
Introduction to Statistical Methods (BA ZC413) (WILP Course) (IC) (Course Rating: 4.19/5, Faculty Rating: 4.12/5) (Candidates provided feedback: 17 out of 21)
I have been involved in teaching a number of courses, both at the undergraduate and graduate levels at BITS Pilani, some of them are as follows-
CS F301 Principal of Programming Language
CS F213 Object Oriented Programming
CS F303 Computer Network
BITS F464 Machine Learning
CS G513 Network Security
CS F211 Data Structure and Algorithms
CS F342 Computer Architecture
2023-24 Semester I : Mechanics of Waves and Oscillations (MeOW) Tutorials
2023-24 Semester II: a) Group Theory and Applications (PHY F422), Advanced Elective
b) Mathematics II, Tutorials
2024-25 Semester I: a) Introduction to Quantum Field Theory (PHY F412), Advanced Elective
b) Mechanics of Waves and Oscillations (MeOW) Tutorials
S. No. |
Title of course taught |
Postgraduate or Undergraduate |
Sole instructor or with others |
Year |
1 |
Advanced Mass Transfer |
PG |
Sole instructor |
2004-2013 |
2 |
Advance Heat Transfer |
PG |
Sole Instructor |
2009-2011 |
3 |
Professional Practice – I |
PG |
With others |
2004-2011 |
4 |
Professional Practice – II |
PG |
Sole Instructor |
2007 |
5 |
Advanced Transport Phenomena |
PG |
Sole instructor |
2015-2017 |
6 |
Mathematical Methods in Chemical Engineering |
PG |
Sole Instructor |
2014-2022 |
7 |
Fluid Mechanics |
UG |
Sole Instructor |
2017-2021 |
8 |
Numerical Methods for Chemical Engineers |
UG |
Sole Instructor |
2018-2022 |
9 |
Heat Transfer |
UG
|
Sole Instructor |
2008-2011, 2017, 2018 |
10 |
Chemical Process Technology |
UG |
Sole instructor |
2004-2009 |
11 |
Process Dynamics and Control |
UG |
Sole instructor |
2012 – 2014 |
12 |
Transport Phenomena |
UG |
Sole instructor |
2013- 2018 |
13 |
Computer Aided Process Plant Design |
UG |
Sole instructor |
2004 |
14 |
Selected Chemical Engineering Operations |
UG |
With others |
2006-2007 |
15 |
Structure & Properties of Materials |
UG |
With others |
2003-2004 |
16 |
Thermodynamics |
UG |
With others |
2003 |
17 |
Kinetics and Reactor Design |
UG |
With others |
2009-2011 |
18 |
Process Design Principles - II |
UG |
With Others |
2019 |
19 |
Chemical Engineering Laboratory - II |
UG |
With others |
2018 |
20 |
Mass Transfer Operations |
To the employees of HZL, Udaipur & CFCL, Kota |
Sole instructor |
2007-2009 |
21 |
Heat Transfer Operations |
To the employees of TCL, Babrala & To the employees of Aditya Birla Group, Cement Business |
Sole instructor |
2009, 2011 |
22 |
Process Equipment Design |
To the employees of HZL, Udaipur & CFCL, Kota & Aditya Birla Group (Cement business) |
Sole instructor |
2009, 2016 |
23 |
Applied Transport Phenomena |
To the students of WILP |
Sole instructor |
2020 |
Supply Chain Management |
On-campus (BE & ME) |
Supply Chain Modelling and Empirical Analysis |
On-campus (BE) |
Supply Chain Management |
(On-Campus: MBA, ME, BE and WILP: MS) |
Product Design |
(On-Campus: ME & BE) |
Design Projects |
(On-Campus: ME & B) |
Manufacturing Planning and Control |
(On-Campus: ME & BE) |
Materials Management |
(On-Campus: BE and WILP: BS) |
Manufacturing Management |
(On-campus: BE) |
Operations Research |
(On-Campus: BE) |
Optimization |
(On-Campus: BE) |
Workshop Practice |
(On-Campus: BE) |
Production Planning Control |
(On-Campus: BE & WILP: BS) |
Total Quality Management |
(WILP: MS) |
Quality Control Assurance and Reliability |
(WILP: BS) |
Plant Layout and Design |
(WILP: MS) |
Production Technique Lab |
(On-Campus: BE) |
Workshops / FDP / Consultancy
Courses
Teaching (Academic year 2022) at BITS Pilani, Goa campus:
Teaching (Academic year 2019-2022) at BITS Pilani campus:
Semester-wise Details of the courses taught. [Sl.No Course title Semester Role No.St L=Lecture/T=Tutorial]
Academic Year 2014-15
1 Fundamentals of Finance and Accounting (ECON F212) First IC L+T
2 Managerial Economics MBA ZC416/ WILP First IC L
3 Principles of Economics (ECON F211) Second IC L
4 Economic Analysis of Public Policy (ECON F343) Second IC L+T
Academic Year 2015-16
5 Fundamentals of Finance and Accounting (ECON F212) First IC L+T
6 Managerial Economics MBA ZC416/ WILP First IC L
7 Principles of Economics (ECON F211) Second IC L+T
8 Economic Analysis of Public Policy (ECON F343) Second IC L+T
Academic Year 2016-17
9 Fundamentals of Finance and Accounting (ECON F212) First IC L+T
10 Financial and Management Accounting (MBA G515) First IC L
11 Managerial Economics MBA ZC416/ WILP First IC L
12 Principles of Economics (ECON F211) Second I L
13 Principles of Economics (ECON F211) Second I L+T
Academic Year 2017-18
14 Energy Economics (ECONF353) First IC L
15 Fundamentals of Finance and Accounting (ECON F212) First IC L+T
16 Economic Analysis of Public Policy (ECON F343) Second IC L+T
17 Macroeconomics (ECON F243) Second IC L+T
18 Development Economics (GS F234) Second IC L
Academic Year 2018-19
19 Fundamentals of Finance and Accounting (ECON F212) First IC L+T
20 Economic Analysis of Public Policy (ECON F343) Second IC L+T
21 Economic Growth and Development (ECON F244) Second IC L+T
22 Principles of Economics (ECON F211) Second I T
Academic Year 2019-20
23 Economic Environment of Business (ECONF214) First I L+T
24 Fundamentals of Finance and Accounting (ECON F212) First IC L+T
25 Economic Analysis of Public Policy (ECON F343) Second IC L+T
26 Financial and Management Accounting (MBA ZC415/WILP Second IC L
Academic Year 2020-21
27 Economic Environment of Business (ECONF214) First IC L+T
28 Financial and Management Accounting (MBA ZC415/WILP First IC L
29 Economic Analysis of Public Policy (ECON F343) Second IC L+T
30 Principles of Economics (ECON F211) Second I L
Academic Year 2021-22
31 Fundamentals of Finance and Accounting (ECON F212) First IC --- L+T
32 Financial and Management Accounting (MBA ZC415/WILP First IC --- L
33 Economic Analysis of Public Policy (ECON F343) Second IC --- L+T
34 Principles of Economics (ECON F211) Second IC --- L
Academic Year 2022-23
35 Principles of Economics (ECON F211) First IC --- L
36 Fundamentals of Finance and Accounting (ECON F212) First I --- L+T
37 Economic Analysis of Public Policy (ECON F343) Second IC --- L+T
38 Fundamentals of Finance and Accounting (ECON F212) Second I --- L
Academic Year 2023-24
39 Principles of Economics (ECON F211) First I --- L
40 Fundamentals of Finance and Accounting (ECON F212) First IC --- L+T
41 Economic Analysis of Public Policy (ECON F343) Second IC 82 [1] L+T
42 Fundamentals of Finance and Accounting (ECON F212) Second IC 404 [1] L
Kinetics & Reactor Design
Separation Processes I
Process Plant Safety
Petroleum Refining and Petrochemicals
Engineering Chemistry
Polymer Technology
Selected Chemical Engineering Operations
Chemical Process Calculations
Chemical Process Technology
Chemical Engineering Lab I & II
Unit Operations I (WILP)
My research interest includes the development of the numerical methods for the singularly perturbed boundary value problems arising in many applications of science and engineering. Singularly perturbed boundary value problems are those in which the highest order derivative is multiplied by a small parameter ε, known as the perturbation parameter. As ε → 0, the order of the differential equation reduces by at least one and so the solution to the reduced problem fails to satisfy all the boundary conditions. Thus as ε → 0, the solution to these problems has multiple behaviors in the sense that there are the regions where solution changes very rapidly (these regions are called layer regions) otherwise the solution varies slowly (these regions are called outer regions). The classical/standard numerical methods fail to approximate the solution to these problems, so we need to develop non-classical/nonstandard methods for the solution of these problems.
In particular, my research includes the development of the numerical methods for Initial/Boundary Value Problems for Ordinary Differential Equations, Partial Differential Equations, Delay/Advanced Differential Equations, Singularly Perturbed ODEs/PDEs, Fractional Order ODEs/PDEs etc.
CE F321 Engineering Hydrology
CE F231 Fluid Mechanics Lecture and Tutorial
CE F323 Introduction to Environmental Engineering
BITS F110 Engineering Graphics Lecture and Instructor In Charge
BITS F110 Engineering Graphics Practical
BITS F225 Environmental Studies
WILP (Work Integrated Learning Programmes) Courses
SSTM ZG528 Environmental Impact Assessment
My teaching is inspired by the quote below which I was introduced to by my PhD advisor and mentor Prof. R. S. Sreenivas.
If you want to build a ship, don’t drum up people to collect wood and don't assign them tasks and work, but rather teach them to long for the endless immensity of the sea.
- Antoine de Saint-Exupery
Courses at BITS: Digital Design, VLSI Architecture, Microprocessors and Interfacing, Electronic Instruments and Instrumentation Technology.
Courses elsewhere: Mathematical foundations of Data Science, Applied Linear Algebra, Sensors and Actuators, Machine Learning.
My teaching philosophy is based on the proposition that “Teaching is about Learning” and I believe that it is my responsibility as a teacher to provide students with an environment conducive to learning, knowledge that will help them learn and help them in becoming and remaining motivated to learn.
I have taught courses (both at the undergraduate and graduate levels) at BITS Pilani in the areas of General Chemistry and Organic Chemistry. I have also guided first-degree students in their laboratory and study projects. Some of the courses taught by me are:
The course starts with generalized Hooke’s law and three dimensional stress strain relations putting emphasis on Materials-Mechanics linkage to elucidate mechanical properties of materials. It also includes Energy methods; Torsion of non-circular members; Shear center and Asymmetrical bending of beams; Curved beams; Thick cylinders.
Small oscillations of linear dynamical systems, free and forced vibrations of single and multi degree of freedom systems, normal modes and orthogonality relations, generalized coordinates, and Lagrange's equations, matrix formulation, eigenvalue problem, and numerical solutions, transient response of one dimensional systems. Introduction to continuous system, vibration measurement and analysis, closed-loop control, conventional and non-conventional control strategies, transfer function, dynamic response, and stability criteria, state space approach and exposure to simulation tools.
This course provides an introduction to the diverse field of biomedical engineering and its application. We will focus on the topics at the interface between engineering and biomedical science; engineering principles for physiological phenomena. The course initiates with basic understanding of biological systems pertaining to application perspective from engineering discipline. Engineering theories will be applied to explain interaction of the metals, polymers, and ceramics biomaterials with the bodily environment and corresponding surface modifications. Working principles and applications of biosensors, biomedical imaging, and tissue engineering processes will be examined. Application of nanotechnology in biomedical applications will be covered.
Physics Laboratory: PHY F110
MECH OSCIL & WAVES: PHY F111
Research Methodology: BITS E661
Design Project: PHY F376-77
Compuational Physics - PHY F313
Computational Methods in Physics - PHY F518
February 2013 - Current | Professor Department of Chemistry Birla Institute of Science & Technology, Pilani
|
August 2010 - January 2013 | Associate Professor & Head Chemistry Group, Birla Institute of Science & Technology, Pilani
|
November 2004 - July 2010 |
Assistant Professor & Head Chemistry Group, Birla Institute of Science & Technology, Pilani
|
December 2002 - October 2004 |
Research Associate, Department of Chemistry & Biochemistry
University of Maryland, College Park, USA
|
December 2000-November 2002 |
Lecturer Department of Chemistry
Birla Institute of Science & Technology, Pilani, India
|
May 1999 - September 2000 |
Post-doctoral Fellow University of Texas
Austin, USA |
August 1997 - April 1999 | Post-doctoral Fellow Sam Houston State University Huntsville, TX, USA |
April 1993-July 1997 | Ph.D., Organic Chemistry Kurukshetra University, Kurukshetra Haryana
|
June 1991-March 1993 | M. Phil.,Organic Chemistry, Grade A Kurukshetra University Kurukshetra
Haryana
|
July 1989-May 1991 |
M. Sc., Organic Chemistry Kurukshetra University Kurukshetra
Haryana
|
About Research: Our research interest focuses on design and synthesis of natural and synthetic bioactive nitrogen heterocycles as potent and selective anticancer agents. Recent research efforts aiming towards the use of organoiodines enabled us to discover several efficient protocols leading to easy access of drug-like bioactive heterocycles and natural products. Taking cue from indole-based natural products and synthetic drugs, identified various indolylazoles endowed with anticancer activities ranging from micro to nanomolar IC50 values. Efforts to develop potential photosensitizers resulted in the identification porphyrin macrocycle and boron dipyrromethenes with interesting absorption and emission properties. More recently efforts towards conjugate chemistry provided water soluble cationic porphyrins with remarkable (IC50 in nanomolar range) photocytotoxicity.
Our research team is involved in understanding the diverse molecular mechanisms or adaptations of tumor cells contributing to drug tolerance and resistance. In this regard, the following aspects are investigated:
The technique of Matrix Isolation allows us to study reactive intermediates, radicals, strained rings, etc. by trapping and isolating the reactive molecules in a cavity surrounded by one or more layers of inert material (Ar, N2 etc.) thereby inhibiting the diffusion of the substrate. Various spectroscopic techniques, such as, UV- VIS and IR can be used to study the isolated materials.
Prof. Dalvi has created materials Physics laboratory in the Physics department, dedicated to solid state ionics research. His lab is equipped with characterization facility for Li+ and Na+ ion glass-ceramics, NASICON-polymer hybrid composites for Li+/Na+ ion battery and supercapacitor applications. Recently, all-solid state battery and all-solid state supercapacitor fabrication and testing facilities have also been added.
Students with CSIR JRF/UGC JRF can directly apply (adalvi@pilani.bits-pilani.ac.in)
Name of the course |
About the course |
Students/Section |
1. Pattern Recognition (BITS 446)
|
Open Elective course Disciplinary Elective for B5 (MSc Physics) |
Total number o registered students ~ 40
|
2.Phys Lab (PHY 344) |
Compulsory lab course to all first year students |
Registered students ~ 60 |
3.FDTS
|
|
|
4.Design Project (PHY 376/377)
Laboratory Project (PHY 366)
Study Project (PHY 266)
|
|
Name of the course |
About the course |
Students/Section |
1.Image Processing(BITS 311)
|
Open Elective course Desciplinary Elective or CSIS |
Total number o registered students ~ 140
|
2.Adv Phys Lab (PHY 344) |
Compulsory lab course to all third year students |
Registered students ~ 75 |
3.DTS
|
|
|
4.Design Project (PHY 376/377)
Laboratory Project (PHY 366)
Study Project (PHY 266)
|
|
Name of the course |
About the course |
Students/Section |
1. Ele. Mag. & Opt. Lab(PHY 214)
|
Compulsory lab course to all MSc Physics students in their 2nd year 1st semester
|
Total number o registered students ~ 75
|
2.Thin ilm Technology (PHY 379) |
Disciplinary Elective course or Physics students |
Registered students ~ 40 |
3.Projects: DTS/SOP/COP/LOP |
Study Project
DTS (On-Campus)
DTS (O-Campus)
|
Kaushley Mehra (ID: 2018B2A40641)
Deepak Jain (2017B5A30935)
Pratyush Goel (2017B5A70899))
Sparsh Jain (2017B5A40892)
(Conetto, Singapore)
|
Name of the course |
About the course |
Students/Section |
1.Image Processing(BITS 311)
|
Open Elective course Desciplinary Elective or CSIS |
Total number o registered students ~ 140
|
2.Adv Phys Lab (PHY 344) |
Compulsory lab course to all third year students |
Registered students ~ 75 |
3.DTS
|
1. Saumya Garg (2016B5A80736P)
2. Utkarsh Kedia (2016B5A80713P)
|
|
4.Design Project (PHY 376/377)
Laboratory Project (PHY 366)
Study Project (PHY 266)
|
1. Vishal Alamanda (2016B5A20050P)
2. Aashya (2017B5A30981P)
3. Deepak Jain (2017B5A30935P)
4. Goel Prathyush (2017B5A70899P)
5. Ayush Kumar (2017B5A70761P)
|
Name of the course |
About the course |
Students/Section |
1.Pattern Recognition(BITS 446)
|
Open Elective course Disciplinary Elective or Physics |
Total number o registered students ~ 127
|
2.Thin ilm Technology (PHY 379) |
Disciplinary Elective course or Physics students |
Registered students ~ 40 |
3.Projects: SOP/COP/LOP |
Study Project
Design Project
|
Vishal Almanda (ID: 2016B5A20050)
|
Name of the course |
About the course |
Students/Section |
1.Image Processing(BITS 311)
|
Open Elective course Desciplinary Elective or CSIS |
Total number o registered students ~ 140
|
2.Adv Phys Lab (PHY 344) |
Compulsory lab course to all third year students |
Registered students ~ 68 |
3. Statistical Mechanics (PHY 312) |
Compulsory Disciplinary Course, MSc Physics & Minor in Physics |
|
4. Design Project (PHY 376/377)
Laboratory Project (PHY 366)
Special Project (PHY 491)
|
1.Neelabh Sinha (2016B5A80600P)
2.Akshika Goel (2016B5A70672P)
3.Isha Saini (2016B5TS0956P)
4.Siddhant Singh (2016B5A70144P)
5.Ayush Agarwal (2016B5A70716)
6.Ankita Chakravarty (2016B5A70701P)
|
Name of the course |
About the course |
Students/Section |
1.Pattern Recognition(BITS 446)
|
Open Elective course Desciplinary Elective or Physics |
Total number o registered students ~ 100
|
2.Phys Lab (PHY 110) |
Compulsory lab course to all irst year students |
Registered students ~ 40 |
3.Projects: SOP/COP/LOP |
Study Project
Design Project
|
1. Neelabh Sinha(2016B5A80600P)
2. Akshika Goel(2016B5A70672P)
3. Rama TG (2016B5A40678P)
4. Sushant Kumar (2016B5A40655P)
|
Name of the course |
About the course |
Students/Section |
1.Image Processing(BITS 311)
|
Open Elective course Desciplinary Elective or CSIS |
Total number o registered students ~ 110
|
2.Adv Phys Lab (PHY 344) |
Compulsory lab course to all MSc Physics students |
Registered students ~ 66 |
3.Projects: SOP/COP/LOP |
Lab Project
Study Project
|
1. Aditya Sunil Venikar (2015B5A30724P)
2. Deep Vikas Kulkarni (2015B5A70671P)
3. Ishaan Ahuja (2015B5A80442P)
4. Amaayaa Goswami (2016B5PS0001P)
5. Madhur Wadhwa (2016B5A30727P)
6. Akaash Bist (2016B5A80675P)
|
Name of the course |
About the course |
Students/Section |
1.Computational Physics (PHY 313)
|
Compulsory Disciplinary Course or Physics Open to all 3rd yr B5 students |
Total number o registered students ~ 50
|
2.MeOW (PHY 111) |
Compulsory oundation physics course to all irst degree students |
One section |
3.(a)Projects: SOP/COP/LOP |
Design Project
|
1. Aditya Sunil Venikar (2015B5A30724P)
2. Deep Vikas Kulkarni (2015B5A70671P)
3. Ishaan Ahuja (2015B5A80442P)
|
Name of the course |
About the course |
Students/Section |
1.Pattern Recognition (BITS 446)
|
Elective course on emerging areas No pre-requisite Open to all eligible D/HD students |
Total number o registered students ~ 77
|
2.Adv Phys Lab (PHY 344) |
Compulsory lab course to all MSc Physics students |
Instructor |
3.(a)Projects: SOP/COP/LOP |
Special Project (PHY 491) |
1. Shubham Gupta (2014B5A30752P)
2. Akshay Golechha (2014B5A40844P)
|
Name of the course |
About the course |
Students/Section |
1.Computational Physics (PHY 313)
|
Compulsory Disciplinary Course or Physics Open to all 3ry B5 students |
Total number o registered students ~ 50
|
2.Physics Lab (PHY 110) |
Compulsory lab course to all irst degree students |
Two sections |
3.(a)Projects: SOP/COP/LOP (b)Projects: First Deg Thesis
|
1. Special Project
2. Lab oriented project
3. Special Project
|
1. Smriti Joshi (2014B5PS0947P)
2. Sachin Mishra (2014B5A70853P)
3. Aakanksha Agarwal (2014B5TS0951P)
1. Srajan Jain (2013B5A70810P)
|
Name of the course |
About the course |
Students/Section |
1.Pattern Recognition (BITS 446)
|
Elective course on emerging areas No pre-requisite Open to all eligible D/HD students |
Total number o registered students ~ 65
|
2.Adv Phys Lab (PHY 344) |
Compulsory lab course to all MSc Physics students |
Instructor-InCharge |
3.(a)Projects: SOP/COP/LOP (b)Projects: First Deg Thesis
|
1. Pratyush Kar (2013A7TS029P)
2. Abhinav Mehta (2013A7TS183P)
3. Srajan Jain (2013B5A7810P)
1. Soma Mishra (2013B5TS960P) (As Co-Guide)
|
Name of the course |
About the course |
Students/Section |
1.Image Processing (BITS 311)
|
Elective course on emerging areas No pre-requisite Open to all eligible D/HD students |
Total number o registered students ~ 45
|
2.Physics Lab (PHY 110) |
Compulsory lab course or all BE students |
Two Sections |
3.Projects: SOP/LOP/COP |
1.Soma Mishra(ID:2013B5TS960P) 2. MohitBharadwaj(2012B5A3651P)
3. Sanjay Reddy S(ID:2013A7PS189P)
4. Manit Gupta(ID: 2013A7PS120P)
|
Name of the course |
About the course |
Students/Section |
1.Pattern Recognition (BITS 446)
|
Elective course on emerging areas No pre-requisite Open to all eligible D/HD students |
Total number o registered students ~ 55
|
2.Adv Phys Lab (PHY 344) |
Compulsory lab course to all MSc Physics students |
|
3.(a)Projects: Study Oriented Projs (b) Projects: First Deg Thesis
|
1.Raja VSKMT(ID:2011A7PS111) 2. Alekhya K(ID:2012A7PS095)
1. Himanshu Hansaria(ID:2011B5AB445)
|
Name of the course |
About the course |
Students/Section |
1.Image Processing (BITS 311)
|
Elective course on emerging areas No pre-requisite Open to all eligible D/HD students |
Total number o registered students ~ 61
|
2.Physics Lab (PHY 110) |
Compulsory lab course or all BE students |
One Section |
3.(a)Projects: Study Oriented Projs (b) Projects: First Deg Thesis
|
1. Soma Mishra(ID:2013B5TS960P) 2.Sankhya Chakravarty(2012A7PS014)
3. Sanjay Reddy S (ID:2013A7PS189P)
4. Varun (ID: 2013A7PS166P)
5. Priyank Gupta (ID: 2013A7PS070P)
6. Saurabh Anand (ID 2013A7PS139P)
(3-6 as co-guide)
1. Saumya Sahai(ID:2011B5A7581)
|
Name of the course |
About the course |
Students/Section |
1.Image Processing (BITS 311)
|
Elective course on emerging areas No pre-requisite Open to all eligible D/HD students |
Total number o registered students ~ 210
|
2.Adv Phys Lab (PHY 344) |
Compulsory lab course to all MSc Physics students |
|
3.(a)Projects: Study Oriented Projs (b) Projects: First Deg Thesis
|
1. Himanshu Hansaria (ID:2011B5AB445) 2. Saurabh Maurya (2012A7PS055)
1. Adbhut Gupta(ID:2010B5A3672)
2. Tushar Rathi(ID:2010B5A3658)
|
Name of the course |
About the course |
Students/Section |
1.Pattern Recognition (BITS 446)
|
·Elective course on emerging areas ·No pre-requisite ·Open to all eligible D/HD students |
Total number of registered students = 80
|
Project: First Degree Thesis
Project: Lab Oriented Project
Project: Study Oriented Project
Project: Special Project
|
1. Adbhut Gupta (ID:2010B5A3672)
2. Ambuj Mehra (ID:2011B5A3616)
3. Pranav Gupta (ID:2012A7PS068)
4. P. Laxman (ID:2011C6PS603)
5. C. Bharath (ID:2011A7PS007)
|
Name of the course |
About the course |
Students/Section |
1.Image Processing (BITS 311, EA C443)
|
·Elective course on emerging areas ·No pre-requisite ·Open to all eligible D/HD students |
Total number o registered students = 149
|
2.Adv Phys Lab (PHY 344), IMA (PHY C391) |
Compulsory lab course to all MSc Physics students |
|
3. (a) Projects: Study Oriented Projs (b) Projects: First Deg Thesis
|
1. Pooja Garg (ID:2011A7PS056P) 2. Anagh Pathak (ID:2009B5A1633P)
3. Viswadeep Sarangi (ID:2009B5A8678P)
|
Name of the course |
About the course |
Students/Section |
1.Pattern Recognition (EA C471) (BITS 446)
|
Elective course on emerging areas No pre-requisite Open to all eligible D/HD students |
Total number o registered students = 72
|
2.Ele. Mag & Optics Lab (PHY 214) |
Compulsory lab course to all MSc Physics students in their 2nd year 1st semester |
Section 2 |
3. (a) Projects: Lab Oriented Projs (BITS C313) (b) Projects: First Deg Thesis
|
1. Neha Gupta (ID:2010B5C7864P) 2.Aditya Joshi (ID:2010B5A3553)
3. N N Awadhut (ID: 2010B5A3629)
4. Tushar Rathi (ID:2010B5A3658)
5. Adbhut Gupta (ID:2010B5A3672)
6. Anagh Pathak (ID:2009B5A1633P)
7. Nitin Varyani (ID:2009B4A7586P)
|
Name of the course |
About the course |
Students/Section |
1.Intro to Nanoscience (EA C416)
|
Elective course on emerging areas No pre-requisite Open to all eligible D/HD students |
|
2.Instrumental Methods o Analysis (PHY C391) |
Compulsory lab course to all MSc Physics students in their 3rd year 2nd semester |
Optics Lab |
3.(a) Projects: Lab Oriented Projs (BITS C313) (b) Projects: First Deg Thesis
(c) Projects: Higher Deg Thesis
|
1. S. Abhinav (ID:2010A3PS167) 2.Aditya Joshi (ID:2010B5A3553)
3. N N Awadhut (ID: 2010B5A3629)
4. Tushar Rathi (ID:2010B5A3658)
5. Adbhut Gupta (ID:2010B5A3672)
6. Dharnish K (ID:2008B5A8716)
7. Savini Sonavaria (ID:2011H124047)
|
Name of the course |
About the course |
Students/Section |
1.Pattern Recognition (EA C471)
|
Elective course on emerging areas No pre-requisite Open to all eligible D/HD students |
Total number o registered students = 82 |
2.Mechanics, oscillation & waves (PHY 111) |
Course to all D students in their irst semester 1st year |
Tutorial section # 12 |
3.Projects or Higher Degree (Study in Advanced Topics, BITS G513) |
Title of the project "Bird song recognition system" |
Name of the student: Savini Sonavaria (2011H124047P) |
TEACHING EXPERIENCE at Graduate, Post-Graduate level & PhD level (Prior to joining BITS Pilani)
Tuberculosis drug discovery
Main TB targets: Enzymes involved in DNA synthesis, cell wall synthesis, signaling pathway, dormancy, shikimate pathway, amino acid biosynthesis.
Host directed TB therapy
Other antimicrobial drug discovery
Antibacterial drugs: ESKAPE organisms majorly Staphylococcus aureus and Pseudomonas aeruginosa
1. Karolinska Institute, Sweden.
2. N.I.I. New Delhi, India.
Computational learning theory
Foundations of Data Science
Foundations of Deep Learning (Special Topics)
Applied Statistical Methods
First Year Course for all FD
Compulsory Discipline Course as a Instructor In charge of multi section course (multiple time)
Elective and HD Course
Sl. No. | Course | On Campus/ WILP | students registered | IC |
1 | ME F220 Heat Transfer | On campus | 157 | Y |
2 | DE ZG 631 Materials Technology and Testing | WILP | 192 | Y |
Sl. No. | Course | On Campus/ WILP | No. of Students registered | IC | Feedback |
1 | ME F420 Power Plant Engineering (Lecture) | On campus | 13 | Y | - |
2 | ME F420 Power Plant Engineering (Tutorial) | On campus | 13 | Y | - |
3 | DE ZG 631 Materials Technology and Testing | WILP | 274 | Y | 4.34/5 |
Sl. No. | Course | On Campus/ WILP | No. of Students registered | IC | Feedback |
1 | ME F220 Heat Transfer (Tutorial) | On campus | 157 | N | 9.32/10 |
2 | DE ZG 631 Materials Technology and Testing | WILP | 232 | Y | 4.30/5 |
A: Details of Courses engaged for Five Years & feedback.
I Semester 2021-2022 (Current semester)
Serial Number |
Course |
On Campus/ WILP |
No. Of Students |
IC |
1 |
MEF420 Power Plant Engineering (L) |
On campus |
20 |
Yes |
2. |
ME F420 Power Plant Engineering (T) |
On campus |
20 |
Yes |
3. |
DEZG 631 Materials Technology and Testing (L) |
WILP |
232 |
Yes |
Academic Year 2020-2021
II Semester 2020-21
Serial Number |
Course |
OnCampus/ WILP |
No. Of Students |
IC |
Students Feedback |
1 |
ME F220 Heat Transfer (L) |
On campus |
156 |
Yes |
8.8/10 (32) |
2. |
ME F220 Heat Transfer (P1) |
On campus |
42 |
Yes |
9.01/12 |
3. |
ME F420 Power Plant Engineering (L) |
On campus |
12 |
Yes |
9.81/10 (3) |
I Semester 2020-2021
Serial Number |
Course |
OnCampus/ WILP |
No. Of Students |
IC |
Students Feed back |
1 |
MEF311 Heat Transfer (L) |
On campus |
146 |
Yes |
8.69/10 (32) |
2. |
ME F311 Heat Transfer (P5) |
On campus |
146 |
Yes |
------- |
3. |
ENGG ZC243 Mechanical Technology (L) |
WILP |
241 |
Yes |
4.35/5 (216) |
II Semester 2019-2020
Serial Number |
Course |
OnCampus/ WILP |
No. Of Students |
IC |
Students Feedback |
1 |
MEF420 Power Plant Engineering (L) |
On campus |
23 |
Yes |
NA |
2. |
ENGG ZC 232 Engineering Materials (L) |
WILP |
272 |
Yes |
4.43/5 (239) |
3. |
BITS G639 Practice School-II (NBC Bearings and CEG, Jaipur) |
On campus |
06 |
No |
NA |
I Semester 2019-2020
Serial Number |
Course |
OnCampus/ WILP |
No. Of Students |
IC |
Students Feed back |
1 |
MEF311 Heat Transfer (L) |
On campus |
138 |
Yes |
9.04/10 (50) |
2. |
ME F311 Heat Transfer (P2,P5) |
On campus |
75 |
Yes |
8.52/10 (27) |
3. |
ETZC353 Energy Management |
WILP |
148 |
Yes |
4.23/5 (148) |
Academic Year 2018-2019
II Semester 2018-2019
Serial Number |
Course |
OnCampus/ WILP |
No. Of Students |
IC |
Students Feedback |
1 |
MEF420 Power Plant Engineering (L) |
On campus |
49 |
Yes |
9.48/10 (36) |
2. |
ME F420 Power Plant Engineering (T) |
On campus |
49 |
Yes |
9.50/10 (34) |
3. |
ENG ZC 232Engineering Materials (L) |
WILP |
265 |
Yes |
4.20/5 (191) |
4. |
BITS G639 Practice School-II (NBC Bearings and CEG, Jaipur) |
On campus |
06 |
No |
NA |
I Semester 2018-2019
Serial Number |
Course |
OnCampus/ WILP |
No. Of Students |
IC |
Students Feedback |
1 |
MEF311 Heat Transfer (L) |
On campus |
133 |
Yes |
9.21/10 (51) |
2. |
ME F311 Heat Transfer (P3) |
On campus |
28 |
Yes |
8.56/10(26) |
3. |
ME F311 Heat Transfer (P4) |
On Campus |
34 |
Yes |
8.83/10(30) |
4. |
MEF 212 Materials science and Engg. |
On Campus |
145 |
No |
8.33/10 (60) |
Academic year 2017-2018
II Semester 2017-2018
Serial Number |
Course |
On Campus/ WILP |
No. Of Students |
IC |
Students Feedback |
1 |
MEF420 Power Plant Engineering (L) |
On campus |
38 |
Yes |
9.06(14) |
2. |
MEF420 Power Plant Engineering (T) |
On campus |
38 |
Yes |
8.59(27) |
3 |
BITS G639 Practice School-II (NBC Bearings and CEG, Jaipur) |
On campus |
06 |
No |
NA |
I Semester 2017-2018
Serial Number |
Course |
On Campus/ WILP |
No. Of Students |
IC |
Students Feedback |
1 |
MEF311 Heat Transfer (L) |
On campus |
128 |
Yes |
9.21/10(70) |
2. |
ME F311 Heat Transfer (P2,P4) |
On campus |
75 |
Yes |
8.8/10 (38) |
Academic year 2016-17
II Semester 2016-2017
Serial Number |
Course |
On Campus/ WILP |
No. Of Students |
IC |
Students Feedback |
1 |
MEF420 Power Plant Engineering (L) |
On campus |
50 |
Yes |
9.01/10 (16) |
2. |
ME F420 Power Plant Engineering (T) |
On campus |
50 |
Yes |
NA |
3. |
ENGGZC 232 Engineering Materials (L) |
WILP |
41 |
Yes |
4.42/5(23) |
4. |
BITS G639 Practice School-II (NBC Bearings and CEG, Jaipur) |
On campus |
06 |
No |
NA |
I Semester 2016-2017
Serial Number |
Course |
On Campus/ WILP |
No. Of Students |
IC |
Students feed back |
1 |
MEF311 Heat Transfer (L) |
On campus |
138 |
Yes |
9.05/10(65) |
2. |
ME F311 Heat Transfer (P2,P5) |
On campus |
75 |
Yes |
8.75/10 (38) |
3. |
ENGG ZC 232 Engineering Materials (L) |
WILP |
280 |
Yes |
4.28/5 (222) |
Academic year 2015-2016
II Semester 2015-2016
Serial Number |
Course |
On Campus/ WILP |
No. Of Students |
IC |
Students Feedback |
1 |
MEF420 Power Plant Engineering (L) |
On campus |
38 |
Yes |
9.35/10 (24) |
2. |
ME F420 Power Plant Engineering (T) |
On campus |
38 |
Yes |
9.17/10 (21) |
3. |
ENGG ZC 232 Engineering Materials (L) |
WILP |
179 |
Yes |
4.36/5 (140) |
4. |
BITS G639 Practice School-II (NBC Bearings and CEG, Jaipur) |
On campus |
06 |
No |
NA |
Courses in Current Semester (Sem-Il, 2012-2013) | Class Hrs |
Machine Design & Drawing
|
T, Th, S 10AM to 10.50PM |
List of On-Campus courses taught at BITS Pilani | No. of Semesters Taught |
Mechanical System Design [ME G521] | 5 |
Design Projects [DE G522] | 4 |
Advanced Mechanics of Solids and Kinematics [ME C392] | 7 |
Computer Aided Design (Selected topics only) | 2 |
Design of Machine Elements [ME C312] | 4 |
Dynamics of Machines and Vibration [ME C422] | 1 |
Engineering Graphics [TA C111] | 9 |
Mechanics of Solids [ES C221] | 7 |
Production Techniques [ME C 342] | 1 |
Thermodynamics [ES C 112] | 8 |
Transport Phenomena –I [ ME C221] | 4 |
Workshop Practice TA C112] | 5 |
New Course Planned: Database Implementation (this course will be offered in collaboration with Prof. Shashi K Gadia, Dept. of Comp. Sc., Iowa State University,US)
Completed: 12 (5 in Medicinal Chemistry; 6 in Pharmacology; 1 in Veterinary Pharmacology)
DAC member for several Ph.D. candidates
Guided several M. Pharm. students for various projects in the area of New Drug Design and Synthesis, Neuro-psychopharmacology, Design and development of new animal models, with special reference to serotonergic modulators and related disorders. Many have culminated in conference presentations and or publications.
Guided two (completed) first degree thesis students and currently guiding one first degree student in the area of Neuro-psychopharmacology, Design and Development of new Animal Models and related protocol standardization. Guided several B.Pharm. Students on Special Projects, Lab. Oriented Projects, Study Oriented Projects, Computer Projects. A few have culminated in conference presentations and or publications.
Higher Degree or P.G. Level
First Degree or Undergraduate Level
First Semester 2022-23
CS/SS G514 Object Oriented Analysis and Design
Instructor Incharge : Yashvardhan Sharma
M, W, F 3rd Hr @ 6103
Chamber Consultation Hours: Thursday 5:00pm to 6pm @6111-C
SS ZG514 Object Oriented Analysis and Design
Instructor Incharge : Yashvardhan Sharma
Saturday 10:30am - 12:30pm
Online Lecture
Second Semester 2022-23
CS F415 Data Mining
Instructor : Yashvardhan Sharma
M, W, F 2nd Hr @ 6104
Chamber Consultation Hours: Thursday 5:00pm to 6pm @6111-C
SS ZG514 Data Warehousing
Instructor : Yashvardhan Sharma
Saturday 5:50pm to 7:20pm
Online Lecture
(After July 2018)
Academic Year Semester Course
2018 - 19 Semester 1
I .CS F415 D ATA M INING I/C (95 S TUDENTS ) II . IS ZC332 DATABASE SYST AND APPL I/C (1508 S TUDENTS )
2018 - 19 Semester 2
I .CS F415 D ATA M INING I/C (52 S TUDENTS ) ii.SS G515 DATA WAREHOUSING - I/C (33 Students)
2019 - 20 Semester 1
i.CS F213 OBJECT ORIENTED PROG (240 Students) II .SS G514 O BJECT O RIENTED A NALYSIS AND D ESIGN I/C(56 S TUDENTS )
2019 - 20 Semester 2
I .CS F212 D ATABASE S YSTEMS I/C (246 S TUDENTS ) I .CS F415 D ATA M INING I/C (69 S TUDENTS )
2020 - 21 Semester 1
II .SS G514 O BJECT O RIENTED A NALYSIS AND D ESIGN I/C( 67 S TUDENTS ) - T WO O FFERINGS (11+56) II .SS ZG514 O BJECT O RIENTED A NALYSIS AND D ESIGN I/C(1 8 9 S TUDENTS )
20 20 - 2 1 Semester 2
I . SS Z G515 DATA WAREHOUSING - I/C ( 118 Students) - I .CS F415 D ATA M INING I/C ( 23 S TUDENTS )
202 1 - 2 2 Semester 1
II .SS G514 O BJECT O RIENTED A NALYSIS AND D ESIGN I/C( 3 7 S TUDENTS ) II . BITS F425 D EEP L EARNING I NSTRUCTOR ( 7 9 S TUDENTS )
20 21 - 2 2 Semester 2
I .CS F212 D ATABASE S YSTEMS I (2 59 S TUDENTS ) I .CS F415 D ATA M INING I/C ( 12 S TUDENTS )
Teaching Courses with full enthusiasm
i. Taking all classes regularly.
ii. Test Paper Correction and Dis tribution within a week .
iii. Grade Submission always before deadline.
iv. Never missed any invigilation duty.
Financial Management
Fundamentals of Finance and Accounts
Security Analysis and Portfolio Management
Business Analysis and Valuation
Derivatives and Risk Management
Corporate Finance and Taxation
Theory of Finance
Principles of Economics
Principles of Management
Financial Risk Analytics and Management
Present semester
Previous semesters
Introduction, structure of materials (metals, ceramics and polymers), crystalline structure imperfections, amorphous and semi-crystalline materials, correlation of structure to properties, phase diagrams & phase transformation, solidification, diffusion and heat treatment, mechanical behavior of materials. Non-destructive testing, composites, corrosion, advanced-smart materials, criteria for material selection, economic environmental and societal issues.
Micro electro mechanical systems (MEMS), devices and technologies. Micro-machining and microfabrication techniques. Transduction mechanisms and modeling in different energy domains. Analysis of micromachined capacitive, piezoresistive and thermal sensors/actuators and applications. Computer- aided design for MEMS layout, fabrication and analysis.
Spring 2023
Fall 2022
Spring 2022
Fall 2021
Summer Term 2021
Spring 2021
Fall 2020
2022-23 (First)
2022-23 (Second)
2023-24 (First)
2023-24 (Second)
2022-23 |
2022-23 |
BITS F327 AI for Robotics
BITS F431 Flexible Manufacturing System
BITS F110 Engineering Graphics
ME F320 Engineering Optimization
ME F221 Mechanisms and Machines
BITS F441 Robotics
ME G511 Mechanisms and Robotics
CE F323 Introduction to Environmental Engineering
BITS F225 Environmental Studies
SAN G511 Sanitation Technology
BITS E661 Research Methodology
SSTM ZG511 Sanitation Technology (WILP*)
SSTM ZG525 Environmental Systems Modelling (WILP*)
SSTM ZG528 Environmental Impact and Risk Assessment (WILP*)
TEWPG ZG521 Environmental Impact Assessment (WILP*)
*Work Integrated Learning Program
First Degree (Undergraduate)
BITS F225 Environmental Studies
CE F231 Fluid Mechanics
CE C322 / CE F242 Construction Planning and Technology
CE F321 Engineering Hydrology
CE F341 Hydrology and Water Resources Engineering
CE C342 / F342 Water and Wastewater Treatment
CE F212 Transport Phenomena
CE F214 Construction Materials
CE C371 Hydraulics and Fluid Mechanics
CE C394 / CE F423 Green Buildings and Energy Conservation
CE C414 / CE F323 Introduction to Environmental Engineering
CE C418 Introduction to Water Resources Engineering
TA C111 / BITS F110 Engineering Graphics
TA C222 Measurement Techniques II Laboratory
CE C371 Hydraulics and Fluid Mechanics Laboratory
CE C342 / F342 Water and Wastewater Treatment Laboratory
At Thapar University, Patiala and PSNACET, Dindigul, TN
Hydrology and Ground Water, Geotechnical Engineering, Architecture and Town planning,
Transportation Engineering II, Introduction to Civil Engineering
HSS F 322 : Social and Political Ecology
Objective of the Course: Social and Political ecology examines the politics of the environment and the social responses to the politics. The course would provide students awareness of contemporary debates on the issue of environment through case studies, movements and policies. This would enable students to have a broader understanding of issues related to policies and governance of natural resources.
GS F212: Environment, Development and Climate Change
Scope and Objective of the Course: This course focuses on the concepts of environment, development, and climate change in the contemporary world. This course focuses on the nature and causes of environmental problems in developing countries. Attention is given to both the causes and solutions of environmental problems and the role of state and non-state actors interacting at local, national and global scales. The objective of the course is to make the students aware of the debates and issues relating to environment, development and climate change. The goal of this course is for the learners to appreciate the people-environment relations and to understand the anthropocentric dynamics of development and climate change.
GS F333: Public Administration
Scopes and Objective of the Course: Public administration is a government’s functional arm that enables it to discharge growing responsibilities within an organized framework of well-established procedures. The quality of public administration determines the efficiency with which a government is able to reach out to fulfill the needs of its people and carry forward its objectives into practice. Think about how public administration plays an important role in your life as an Indian citizen? Public administration represents a great creative force, which if used in the right way at the right time, can transform and enhance the social, cultural and economic life of a nation……..
HSS F362: Local Governance and Participation
Scope and Objective of the Course: Strengthening local governments is one of the most important governance challenges in India today. A strong and empowered local government can bring together inclusive growth with inclusive governance. The course will introduce students to key concepts and ideas of decentralization with a focus on the constitutional framework for the same in the Indian context. This will include understanding the 73rd and 74th Constitutional amendments; the Panchayat Extension to Scheduled Areas (PESA); the idea and impact of reservations for women, scheduled castes, scheduled tribes and other marginalized communities. State wise and sectoral case studies will be used to further engage and explain the idea of local governance and participation.
GS F211: Modern Political Concepts
Scope and Objective of the Course: Students will gain a working understanding of the concepts of State, Rights, Democracy, Modern political ideologies, Contemporary political issues. The main purpose of this course is to acquaint students with the language of politics. Here, language is understood as the vocabulary and rhetoric of politics. As languages change over time, it is pertinent to understand the historical context(s) from within which the language(s) of politics emerged as well as those in which these continue to evolve.
HSS F249: Politics in India
Scope and Objective of the Course: India is a diverse country and has sustained a thriving democracy for decades. In its functioning, the Indian democracy deals with various complex issues juxtaposed against each other. The country is defined by great cultural diversity on the one hand and, on the other, the presence of deep social and economic inequality. Some state institutions that deal with these complexities have flourished and strengthened our democracy, while others have not. There is a constant negotiation of political space, ideologies, and identities by the state, political parties, and civil society. A constant challenge faced by the Indian democracy is its capacity to redistribute wealth and alleviate poverty. This Politics in India course will address these issues and help students understand the complexity that defines Indian politics.
UGC Massive online course
I have developed all content for three modules on forest commons, the concept of sustainability and sustainable development for the MA course on Environmental Sociology. The lectures for these modules can be found at the following links:
• Sustainable development: https://www.youtube.com/playlist?list=PL_APJLEgpiIc2Aj8nnB5WMmSE9KPDLkAy
• Forest commons: https://www.youtube.com/playlist?list=PL_APJLEgpiIdBxrTQyuwAwW19hLGHWWz3
• Concept of sustainability:https://www.youtube.com/playlist?list=PL_APJLEgpiIei5b1wFn-PnJEtdq5oGGb
WILP Courses:
Environmental Biotechnology
Solid Waste Management
Other courses:
CEL I Laboratory
CEL II Laboratory
2024-25 Semester I (ongoing)
2023-24 Semester II
2023-24 Semester I
2022-23 Semester II
2022-23 Semester I
2021-22 Semester II
2021-22 Semester I
2020-21 Semester II
2020-21 Semester I
2019-20 Semester II
2019-20 Semester I
2018-19 Semester II
2018-19 Semester I
2017-18 Semester II
2017-18 Semester I
Fall 2010
Spring 2010
Spring 2009
Fall 2008
* Instructor-In-Charge or Sole Instructor
#Shared
Previously taught or assisted
Semester I 2024-2025
Semester II 2023-2024
Semester I 2023-2024
Semester II 2022-2023
Semester I 2022-2023
Semester II 2021-2022
Semester I 2021-2022
Semester II 2020-2021
Semester I 2020-2021
Courses Taught
At Fairhaven College of Interdisciplinary Studies, Western Washington University, USA
1. Indian Films, Environmental Justice, and the Subaltern (5 credits)
At Birla Institute of Technology and Science-Pilani, K.K. Birla Goa Campus
At Central University of Tamil Nadu
1. British Literature I (M.A. English Studies - 5 Credits)
2. Introduction to Dravidian Literature (M.A. English Studies - 2 Credits)
3. Introduction to Comparative Literature (M.A. English Studies - 3 Credits)
4. Literary Criticism (M.A. English Studies - 5 Credits)
5. American Literature II (M.A. English Studies - 5 Credits)
6. British Literature III (M.A. English Studies - 5 Credits)
7. Language and Media (M.A. English Studies - 3 Credits)
8. New Literatures I (M.A. English Studies - 3 Credits)
9. Theory and Cultural Criticism (M.A. English Studies - 5 Credits)
10. Ecocriticism (Integrated M.Sc. - 2 Credits)
Contribution to Academics
Syllabi Framing
At Fairhaven College of Interdisciplinary Studies, Western Washington University, USA
1. Indian Films, Environmental Justice, and the Subaltern (5 credits)
At Birla Institute of Technology and Science-Pilani, K.K. Birla Goa Campus
At Central University of Tamil Nadu
1. Introduction to Dravidian Literature (along with Dr. Nirmal Selvamony)
2. Introduction to Comparative Literature (along with Dr. T. Jayaraman)
3. Language and Media
4. Theory and Cultural Criticism (along with Dr. T. Jayaraman)
5. Ecocriticism for Integrated Sciences (along with Dr. S. Susan Deborah)
My Essays and other works included in Syllabi:
1. “Towards Green Education” introduced in the Undergraduate course on Ecopoetics at Women’s Christian College, Chennai
2. The Story of Mudugar (Video-documentary made as part of my Ph.D. dissertation included in the Ecocriticism syllabus at Central University of Tamil Nadu, Thiruvarur
3. Culture and Media: Ecocritical Explorations taught as part of Green Studies course in Madras Christian College
4. Prepared the syllabus titled “Green Studies” for the newly introduced PG Programme in English at the Parvatibai Chowgule College of Arts and Science (Autonomous) along with Dr. S. Susan Deborah in the academic year 2018-2019
Compulsory Courses
PHY C341 Nuclear Physics (IC)
PHY F343 Nuclear and Particle Physics (IC)
PHY F111 Mechanics, Oscillations and Waves (IC)
PHY F110 Physics Laboratory - I (IC)
PHY C352 Atomic and Molecular Spectroscopy (IC)
Physics Laboratory - II/ Advanced physics Laboratory (IC)
Modern Physics Laboratory (IC)
BITS F111 Thermodynamics (I)
PHY F212 Electromagnetic Theory - I (IC)
Electives Courses
PHY F215 Introduction to Astronomy & Astrophysics (IC)
PHY F317 Introduction to Radio Astronomy (IC)
Nuclear Astrophysics (Reading Course) (IC)
Project Courses
Study Oriented Projects
Lab Oriented Projects
Design Oriented Projects
Research Experience:
2014-2016: Post-doctoral Fellow, Leiden University, The Netherlands
BE(CS) |
Object Oriented Programming, Data Structures and Algorithms, Operating Systems, Discrete Structures, Computer Networks (Lab), Microprocessor Programming and Interfacing (Lab) |
MSc Tech(IS) |
Computer Graphics |
MSc (Physics) |
Physics 1, 2, SSP, Compu. Physics, IMA, |
ME(CS) |
Adv. Operating Systems |
ME(SS) |
Object Oriented Analysis and Design |
ME(Embedded Sys) |
Software for Embedded Systems (TP), Networked Embedded Applications |
Electives, Common courses |
Network Programming, Computer Programming, Engineering Graphics(Lab) |
WILP |
Object Oriented Programming, Object Oriented Analysis and Design, Software for Embedded Systems, Network Programing, Intro to Comp Systems |
Higher Degree
Mathematics-I (Calculus)- MATH C191-MATH F111
Mathematics-II (Linear Algebra & Complex Variable)- MATH C192-MATH F112
Mathematics-III (Differential Equations)- MATH C241-MATH F211
Discrete Structure for Computer Science- MATH C222
Discrete Mathematics- MATH F213
Graph Theory- MATH F243
Optimization- AAOC C222-MATH F212
Optimization –AAOC ZC222 (WILP)
Numerical Analysis- AAOC C341
Linear Algebra & Optimization- PERL ZC235
Cosmology- MATH F456
1. Prateek Jain (2008B4AA498H)
Publication: Prateek Jain, Pradyumn Kumar Sahoo, Bivudutta Mishra: “Axially Symmetric Cosmological Model with Wet Dark Fluid in Bimetric Theory of Gravitation”, International Journal of Theoretical Physics, 51(8) (2012), 2546-2551 (Impact Factor 1.186) Springer
2. G. Chakradhar Reddy (2010B4A3589H)
Publication: P. K. Sahoo, B. Mishra, G Chakradhar Reddy: “Axially symmetric cosmological model in f(R,T) gravity”, European Physical Journal Plus, 129(3), (2014), 49 (Impact factor 1.475) Springer
3. Jeswitha Chintala Cheruvu (2010B4TS802H)
4. Srikanth Suresh (2011B4A7602H)
Publication: B. Mishra, P.K. Sahoo, Srikanth Suresh: “Non-existence of perfect dark energy fluid in Bianchi type-IV space time”, Astrophysics and Space Science, 358(1), (2015) 7. (Impact factor 2.401) Springer
5. Pratishtha Shukla (2011B4A3634H)
6. Amritha Jaydev KM (2011B4A7636H)
Publication: P Shukla, A Jayadev, LRS Bianchi Type-I Cosmology with Gamma Law EoS in f(R,T) Gravity, APPLICATIONS AND APPLIED MATHEMATICS-AN INTERNATIONAL JOURNAL, 11 (1), (2016) 229-237
7. Avinash Kumar Aman (2011B4A7661H)
Publication: B. Mishra, P. K. Sahoo, Avinash Aman: “Non-existence of Bianchi type IV space-time in modified gravity”, International Journal of Pure and Applied Mathematics, 108(1), (2016), 13-21 (Impact Factor 0.372) Academic Publications
8. Prasanth Sukumar (2011B5A1455H)
9. V. Raghavender Reddy (2013B4A7694H)
Publication: P. Sahoo, R. Reddy, LRS Bianchi Type-I Bulk Viscous Cosmological Models in f(R,T) Gravity, Astrophysics 61 (1), (2018) 134-143 (Impact factor 0.670) Springer
10. Parul Goyal (2013B4A7807H)
11. Kusuma Varun (2013A3PS381H)
12. Barkha Mahendrakumar Taori (2013B4A1492H)
Publications: P.H.R.S. Moraes, P.K. Sahoo, Barkha Taori, Parbati Sahoo, “Phantom energy dominated universe as a transient stage in f(R) cosmology”, International Journal of Modern Physics D, 28(10) (2019) 1950124 (Impact factor 2.17) World Scientific
P. Sahoo, B. Taori, K.L. Mahanta, Mixed fluid cosmological model in f(R,T) gravity Canadian Journal of Physics, 98(11) (2020) 981-992, (Impact factor 1.032) NRC Press
13. Veerav Chebrolu (2013B4AA886H)
14. Vedic Sharma (2014B4A7424H)
15. Dhruv Kulshreshtha (2014B4AA687H)
16. Saaransh Singhal (2014A4PS369H)
17. Vempali Mani Ratnam (2014A3PS434H)
18. Mullangi Sai Varun Reddy (2014B4A4944H)
19. Ahana Ghosh (2014B4A70525H)
20. Adira Mohitha (2015AAPS262H)
21. Katreddy Alekhya Suma (2015B4A80574H)
22. Anshuman Pati (2016B4A70470H)
23. Omkar Abhishek (2016B4A10449H)
24. T Rahul Raju (2016B4A10513H)
25. Shreyas Sunil Kulkarni (2016B4A70649H)
26. Shivaank Agarwal (2016B4A70675H)
Publication: P.H.R.S. Moraes, Pradyumn Kumar Sahoo, Shreyas Sunil Kulkarni, Shivaank Agarwal, “An Exponential Shape Function for Wormholes in Modified Gravity”, CHIN. PHYS. LETT. 36(12), (2019) 120401 (Impact factor 1.066) IOP
27. Ankush GK (2017B5A41552H)
28. Soumil Girish Sahu (2018A4PS0572H)
29. Siddharth Jagota (2018A7PS0166H)
30. Viral Tiwari (2018B4AA0795)
31. Rohan Dubey (2018B4A30939H)
32. Swapnil Das (2019A5PS1159H)
33. Raj Tripathi (2019B4A70869H)
34. Ritik Pachuri (2019B4AA0890H)
35. Subhrat Praharaj (2018B4A40714H)
Publication: Oleksii Sokoliuk, Subhrat Praharaj, Alexander Baransky, P.K. Sahoo, Accretion flows around exotic tidal wormholes I. Ray-tracing, Astronomy & Astrophysics (A&A), 665 (2022) A139 , (Impact factor 6.240) EDP, arXiv:2207.07193,
36. Vansh Madan (2018B4A70779H)
37. LImbodia Harrshit Anil (2019B4A40815H)
38. Dikshit Shreyas Sandeep (2020B4A82329H)
40. Subhrat Praharaj (2018B4A40714H)
Publication: Oleksii Sokoliuk, Simran Arora, Subhrat Praharaj, Alexander Baransky, P.K. Sahoo, On the impact of f(Q) gravity on the Large-Scale Structure, Monthly Notices of the Royal Astronomical Society (MNRAS), 522(1) (2023) 252-267, (Impact Factor 5.235) Oxford University Press,arXiv:2303.17341
41. Nilay Shrivastava (2019B4A31301H)
42. Mohammed Muzakkir Rizwan (2020B4PS2250H)
43. Siddhartha Kankipati (2019B4A70841H)
44. Madhamsetty Sai Mani Prithvi Raj (2019B4A21015H)
45. Sonakshi Mishra (2019B4AA0866H)
Mohammed Muzakkir Rizwan, Zinnat Hassan, P.K. Sahoo, GUP corrected Casimir Wormholes with Electric Charge in f(R,Lm) Gravity, Physics Letters B, 860 (2025) 139152, (Impact factor 4.3) Elsevier, arXiv:2408.03969
Test
CHEM F110: Chemistry Laboratory - The MSc. level course exposes students to experimental methods of chemistry and enables them to integrate theoretical knowledge and concepts with practical experience.
CHEM F111: General Chemistry - The MSc. level course covers fundamental concepts of organic, inorganic and physical chemistry.
CHEM F214: Inorganic Chemistry I - The MSc. level course covers the basic concepts of inorganic chemistry, such as structure and bonding of covalent and ionic compounds, periodicity in properties, electronegativity, acid-base and redox reactions, the chemistry of halogens, noble gases and main group elements, and the chemistry of macromolecules containing inorganic chains, rings and cages.
CHEM F241: Inorganic Chemistry II - The MSc. level course covers advanced topics in inorganic chemistry, such as structure, bonding, electronic spectra, and magnetism of coordination complexes, as well as structure, bonding and reactions of organometallic compounds.
CHEM G552: Advanced Inorganic Chemistry - The PhD level course covers advanced topics in inorganic chemistry, such as group theory and its applications to crystal field theory, molecular orbital theory and spectroscopy (electronic and vibrational), as well as reactions, kinetics, and mechanisms involving coordination complexes and organometallic compounds.
BITS G654: Advanced Instrumentation Techniques - The PhD level course covers the basics of several advanced analytical techniques and instrumentation practices that are commonly encountered in a chemistry and/or materials science R&D laboratory.
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Digital signal processing (EEE C415/ ECE/EEE F434)
Data communication and networks (BITS C372/ EEE F346)
Circuits and signals (EEE C272)
Electromagnetic fields and waves (EEE C433)
Mobile telecommunication networks (EA C452/ EEE F431)
Telecommunication switching system and networks (CS/EEE/INSTR C414, EEE/INSTR F414)
Communication systems (EEE C383/F311)
Signals and systems (EEE F243)
Microprocessor programming and interfacing (CS/EEE/INSTR F241)
Electrical sciences (EEE F111)
Control systems (ECE/EEE/INSTR F242)
Communication networks (ECE F343)
Digital design (CS/EEE/INSTR F215)
Telecom Network Management (SS ZG582)
Sravan Danda is an Assistant Professor (with OPERA award) at Computer Science and Informations Systems (CSIS) affiliated to APPCAIR at BITS-Pilani, Goa from September 2020. Prior to joining BITS-Pilani, Goa, he was a visitor at Systems Science and Informatics Unit (SSIU), Indian Statistical Institute (ISI), Bangalore from October 2019. During this period, he worked on developing algorithms for hyperspectral band selection using Mathematical Morphology (MM), a sub-area of Image Processing. He received his PhD in Computer Science from the same lab, SSIU, ISI-Bangalore in October 2019. In his PhD thesis, he established that, faster and efficient algorithms for image segmentation and filtering can be obtained by exploiting the contrast-invariance nature of its solutions. This was done by using power watershed framework from MM. Before joining the PhD program in 2013, he worked as a Business Analyst at Genpact, Retail Chain Analytics domain, Bangalore from October 2011 - September 2013. At Genpact, he was responsible for providing recommendations such as product pricing and stocking based on the behaviour of shoppers, backed up with statistical analyses on point-of-sale data. Prior to this, he received his B.Math.(Hons.) degree in Mathematics and M.Stat. degree in Mathematical Statistics and Probability from ISI, in 2009 and 2011 respectively.
Robotics and Automation
Computational Mechanics
Where the mind is without fear
Where the mind is without fear and the head is held high
Where knowledge is free
Where the world has not been broken up into fragments by narrow domestic walls;
Where words come out from the depths of truth;
Where tireless striving stretches its arms towards perfection;
Where the clear stream of reason has not lost its way into the dreary desert sand of dead habit;
Where the mind is led forward by thee into ever widening thought and action into that heaven of freedom,
my father, let my country awake. - Rabindranath Tagore
This course will be offered by me in First semester 2024 and will have exciting learning by doing exercise in the form of project.
2021-'22 Second Semester: Modern Physics Laboratory - PHY F244
2021-'22 First Semester: Physics Laboratory - PHY F110
2022-'23 Second semester: Advanced Quantum Field Theory - PHY G512
2021-'22 Second semester: Methods of Mathematical Physics - PHY F243
2022-'23 First semsetser: Introduction to Quantum Field Theory - PHY F412
2020-'21 Second semester: Electromagnetic Theory 2 - PHY F241
2021-'22 First semsetser: Mechanics, Oscillations and Waves (MOW) - PHY F111
2020-'21 First semester: Quantum Theory and Applications - PHY G514
2018-'19 Second Semester: Advanced Physics Laboratory PHY F344
2019-'20 First Semester: Physics Lab - PHY F110, Mechanics, Oscillations and Waves (MOW) - PHY F111, Group Theory and Applications - PHY F422
CHEM F111: General Chemistry (Tutorial)
CHEM F110: Chemistry Laboratory
CHEM F211: Physical Chemistry I
CHEM F323: Biophysical Chemistry
CHEM G555: Chemistry of Life Processes
CHEM F266: Study Project
BITS F221: PS-I (2023)
BITS F231: PS-I (2023)
First Semester, BITS F464 (Machine Learning):
Scope and Objectives of the course: This course is an undergraduate course on Machine Learning. ML is the sub-field of Artificial Intelligence. It helps engineers build automated systems that learn from experiences. It helps machines make data-driven decisions. For example, Google Maps for navigation uses the route network, real-time traffic characteristics, time of travel etc. to predict an appropriate path for you using ML algorithms. ML is a muti-disciplinary field, with roots in Computer Science, and Mathematics. ML methods are best described using linear and matrix algebra and their behaviour are best understood using the tools of probability and statistics. By integrating mathematical principles, you will learn to effectively address machine learning challenges, developing a deep understanding similar to that of professional data scientists. According to the latest estimates, 328 million terabytes of data are created daily. With this increasing amounts of data, the need for automated methods for data analysis continues to grow. The goal of this course is to develop methods that can automatically detect patterns in data, and then use the uncovered patterns to predict the future outcomes of interest. This course will cover many ML and Gen AI models and algorithms, including Linear regression, Multi-layer neural networks, Support vector machines, Bayesian networks, Gaussian mixture models, Clustering algorithms, Generative adversarial networks (GANs), RNNs, and Reinforcement learning techniques. Hands-on experience will be emphasized, allowing you to select optimal models and master the essential implementation details critical to their success. Practical sessions (Coding assignments) will involve working with real-world data, enhancing your proficiency in debugging and refining models through various ML techniques. The course objectives are the following:
Course Handout: Click here.
Class Presentations:
Sl. No. |
Topic |
Class Presentations |
1. |
Course Administration and Motivation |
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2. |
Machine Learning Overview |
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3. |
Machine Learning Frameworks |
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4. |
Supervised Learning - I (Version Space) | Click here |
5. |
Supervised Learning - II (Decision Trees/ Random Forests) |
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6. |
Model Evaluation (Bias, Variance, Cross-validation, Confusion Matrix, Out-of-Bag metric etc.) |
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7. |
Regression Models (Linear Regression, Logistic Regression, Gradient Descent, Stochastic GD) |
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8. |
Linear Discriminant Functions for Classification, Least Squares for Classification, Fisher's Discriminant Function |
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9. |
Probabilistic approach to Machine Learning (Bayesian Networks, Naïve Bayes Algorithm) |
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10. |
Neural Networks - I (Connectionist Models: Perceptron, Multi Layer Perceptron (MLP), Back Propagation Algorithm, Regularization, Augmentation) |
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11. |
Neural Networks - II (Convolutional Neural Networks, Recurrent Neural Networks, Autoregressive Models and Generative Adversarial Networks (GANs)) |
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12. |
Instance-based and Kernel-based Learning (k-Nearest Neighbor (k-NN), and Support Vector Machines (SVMs)) |
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13. |
Un-supervised learning (K-Means Clustering, Gaussian Mixture Models, Principal Component Analysis (PCA) for feature reduction) |
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14. |
Re-inforcement Learning (Markov Decision Process and Q-Learning) |
Programming Assignments:
Sl. No. |
Problem Definition |
Problem Statement |
1 |
Data Exploration, Pre-Processing and Data Wrangling |
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2 |
Decision Forests using TensorFlow |
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3 |
Regression and LDA using TensorFlow |
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4 |
Gaussian Naïve Bayes and Perceptron |
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5 |
Mini Project |
Second Semester, CS F211 (Data Structures and Algorithms):
Scope and Objectives of the Course: A data structure is a collection of large amounts of data values, the relationships among them, and the functions or operations that can be applied on them. In order to be effective, data has to be organized in a manner that adds to the effectiveness of an algorithm, and data structures such as stacks, queues, linked lists, heaps, trees, and graphs provide different capabilities to organize and manage large amounts of data. While developing a program or an application, many developers find themselves more interested in the type of algorithm used rather than the type of data structure implemented. However, the choice of data structure used for a particular algorithm is always of paramount importance. For example, B-trees have unique abilities to organize indexes and hence are well suited for implementation of databases; Linked lists are well suited for backtracking algorithms like, accessing previous and next pages in a web browser; Tries are well suited for implementing approximate matching algorithms like, spell checking software or predicting text in dictionary lookups on Mobile phones; Graphs are well suited for path optimization algorithms (like in Google maps) or searching in a Social graph (like Facebook). As computers have become faster and faster, the problems they must solve have become larger and more complex, requiring development of more complex programs. This course will also teach students good programming and algorithm analysis skills so that they can develop such programs with a greater degree of efficiency.
The primary objectives of the course are as under:
At the end of the course, you should understand common data structures and algorithms, be able to develop new data abstractions (interfaces) and use existing library components in C++.
Will appear soon...
I teach courses in Networks and Systems, e.g., Computer Networks, Network Programming, Advanced Computer Networks, Software Development for Portable Devices, and Pervasive Computing.
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Work Integrated Learning Program (WILP):
Work Integrated Learning Program (WILP)
Sanitation Financing and Project Management (SAN G514)
Principles of Management (MGTS C211/MGTS F211)
Marketing Research (MGTS C483/ECON F435)
Operations Management (MGTS C392)
Supply Chain Management (MF F421/MBA C421/MMZG 621/QMZG 621)
Research Methodology I (BITS E661)
Businee Policy Structure and Organization (MGTS G521)
Advanced Marketing Theories and Advertising (MGTS G513)
Marketing (MMZC 411)
Business Policy Structure & Organization (MGTS G521)
Design Project (ECON F376/ ME F376)
Advanced Project (BITS G511)
Study in Advanced Topics (BITS G513)
Special Projects (ECON F491)
Reading Course (BITS F382)
Professional Practice (BITS G619)
Research Practice (BITS G540)
First Degree Thesis (BITS C422T)
Mathematics and Statistical Methods (ECON F213)
Fall 2024 (Semester II 2024-2025)
Spring 2024 (Semester II 2023-2024)
Fall 2023 (Semester I 2023-2024)
Spring 2023 (Semester II 2022-2023)
Spring 2025:
Fall 2024:
Spring 2024:
Spring 2023:
Locating array on Graph and its properties, Laboratory Project (Student: Unnat Jain)
Current Semester
Aug- Dec 2024:
Previous semesters- Teaching:
Elective Courses
PhD Courses
First year Courses
Reading Courses
Teaching activities
Courses Handled:
Teaching activities
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BITS F415 - Micro-Electro-Mechanical Systems (MEMS)
BITS F417 / ME F423- Microfluidics and its Applications
BITS F415 - Micro-Electro-Mechanical Systems (MEMS)
DE ZC415/MEL ZC415 : Introduction to MEMS (WILP)
BITS F415 - Micro-Electro-Mechanical Systems (MEMS)
BITS F417 / ME F423- Microfluidics and its Applications
DE ZC415/MEL ZC415 : Introduction to MEMS (WILP)
BITS F415 - Micro-Electro-Mechanical Systems (MEMS)
MEL G611 IC Fabrication Technology
Teach courses in the area of Computer Networking, Computer Architecture, Storage Networks and Computer Programming.
Some of the key courses are Data Storage Technologies and Networks, Advanced Computer Networks, Computer Networks, Computer Programming, Computer Organization & Architecture, Advanced Programming Techniques, Structured Programming, Software for Embedded Systems, Digital Electronics & Microprocessors, Computer Organization & Software Systems, and Advanced Computer Architecture
Digital Course Content (video) Development:
A. Singh, M. Kango-Singh (eds.), Molecular Genetics of Axial Patterning, Growth and Disease in Drosophila Eye, DOI 10.1007/978-1-4614-8232-1_9, © Springer Science+Business Media New York 2013.
Springer Nature Switzerland AG 2020 A. Singh, M. Kango-Singh (eds.), Molecular Genetics of Axial Patterning, Growth and Disease in the Drosophila Eye. (*Communicating author; # Thesis Higher degree student; $ Undergraduate Student).
Dorsal eye selector pannier (pnr) suppresses the eye fate to define dorsal margin of the Drosophila eye. Developmental Biology. 346(2):258-71. (* Equal Contribution)
Activation of JNK Signaling Mediates Amyloid-ß-Dependent Cell Death. PLoS ONE 6(9):e24361. doi:10.1371/journal.pone.0024361. (*Equal contribution).
Opposing interactions between homothorax and Lobe define the ventral eye margin of Drosophila eye. Developmental Biology. 359 (2011) 199–208.
A glimpse into Dorso-ventral patterning of the Drosophila eye. (Review). Developmental Dynamics. 241(1):69-84. doi: 10.1002/dvdy.22764.
"Domain specific genetic mosaic system in the Drosophila eye. Genesis. 51(1):68-74. (*Equal contribution). doi: 10.1002/dvg.22355.
Novel neuroprotective function of apical-Basal polarity gene crumbs in amyloid Beta 42 (aβ42) mediated neurodegeneration. PLoS One.18; 8(11):e78717. doi: 10.1371/journal.pone.007871.
Homeotic Gene teashirt (tsh) Has a Neuroprotective Function in Amyloid-Beta 42 Mediated Neurodegeneration. PLoS One. 8(11):e80829. doi: 10.1371/journal.pone.0080829.
The unconventional myosin CRINKLED and its mammalian orthologue MYO7A regulate initiator caspases in their signalling roles. Nature Communications 7, Article number: 10972 doi:10.1038/ncomms10972.
Extracellular Reactive Oxygen Species drive Apoptosis induced Proliferation via Drosophila Macrophages. Current Biology Biol. pii: S0960-9822(16)00049-X. doi: 10.1016/j.cub.2015.12.064. (*Equal Contribution)
Cullin-4 regulates Wingless and JNK signaling mediated cell death in the Drosophila eye. Cell Death and Disease 7, doi:10.1038/cddis.2016.338.
A Positive Feedback Loop of Hippo- and c-Jun-Amino-Terminal Kinase Signaling Pathways Regulates Amyloid-Beta-Mediated Neurodegeneration. Front. Cell Dev. Biol. 8:117.
An E3 ubiquitin ligase, cullin‐4 regulates retinal differentiation in Drosophila eye. genesis. 2020; 58:e23395. https://doi.org/10.1002/dvg.23395.
Non‑apoptotic enteroblast‑specific role of the initiator caspase Dronc for development and homeostasis of the Drosophila intestine. Sci Rep. 2021; 11: 2645. Published online 2021 Jan 29. doi: 10.1038/s41598-021-81261-0
Rahul S Mor, Sachin Kamble, Kuldip Singh Sangwan (eds), Operations and Supply Chain Management in the Food Industry, Springer. ISBN 978-981-16-5555-5. DOI 10.1007/978-981-16-5555-5
Kuldip Singh Sangwan and Christoph Herrmann (eds), Enhancing Future Skills and Entrepreneurship, 2020 Springer Nature Switzerland AG, ISBN 978-3-030-44248-4. https://www.springer.com/gp/book/9783030442477
Kuldip Singh Sangwan and Christoph Herrmann (eds), Enhancing Future Skills and Entrepreneurship, 2020 Springer Nature Switzerland AG, ISBN 978-3-030-44248-4. https://www.springer.com/gp/book/9783030442477
Directory of Life Sciences in India
International Society of Mycorrhizologists
Association of Microbiologists of India
The Arid Zone Research Association of India
The Biotech Research Society of India
Evaluated various project proposals sent by Czech Science Foundation, Government of the Czech Republic, Praha, Czech Republic; University “G.d’Annunzio”, Chieti-Pescara, Italy; European Research Council (ERC), Brussels, Belgium; DST, New Delhi; DBT, New Delhi.
PLoS One, ACS Sustainable Chemistry and Engineering, Journal of Nanoparticle Research, Molecular Biology Reports, Journal of Biomedical Nanotechnology African Journal of Biotechnology, Antonie Van Leeuwenhok, Letters in Applied Microbiology, Comptes Rendus Biologies etc.
Journal of virology & Mycology
Advances in Environmental Biology
Journal of Medicinal Plant Research
American-Eurasian Journal of Agricultural & Environmental Sciences
World Journal of Agricultural Sciences
Research Journal of Soil Biology
Rhizospheric metal tolerant fungal isolates: Leading edge tool for sustainable synthesis of metal and metal oxide nanoparticles. In: 2nd International Conference on Crop Improvement(ICCI-2015), Universiti Putra, Putrajaya, Malaysia. December 2-3, 2015, p. 34. (Plenary Lecture).
Enhanced catalytic degradation of rhodamine B using mycogenic gold nanoparticles. In: 4th International Conference on Advanced Nanomaterials and Nanotechnology, December 8-11, 2015, Indian Institute of Technology, Guwahati.
The anti-cancerous effect of biologically synthesized silver nanoparticles in human hepatoma cells. In: BITS Conference on Gene and Genome Regulation (BCGGR 2016), February 18-20, 2016, Pilani, Pilani Campus, Pilani, p. 63.
Synthesis of multifarious metal nanoparticles from metal tolerant fungus Penicillium janthinellum DJP06. In: 2nd International Conference on Recent Advances in Nanosciences and Nanotechnology (ICRANN-2016), December19-20, 2016, Jawaharlal Nehru University, New Delhi, p. 83.
Evaluation of mechanism behind the bactericidal action of silver on Escherichia coli. In: International Conference on Nano and Functional Materials (NFM-2017). November 16-18, 2017, BITS Pilani, Pilani Campus, Pilani, p. 66.
Mechanistic side of myco-protein mediated synthesis of silver nanoparticles. In: 58th Annual Conference of Association of Microbiologists of India (AMI-2017). November 16-19, 2017, Babasaheb Bhimrao Ambedkar University, Lucknow, p. 334.
Composing an interactive question paper to generate interest of students and de-stress them during examination. In: National Workshop on Improving Synergy between Teaching and Research in Indian Academia (ISTRIA 2018), March 26-27, 2018, BITS Pilani - Pilani Campus, Pilani, p. 45.
Evaluation of mechanism behind the antibacterial action of silver ions. In: International Conference on Microbial, Plant and Animal Genome, March 29-31, 2018, Modi University of Science and Technology, Lakshamgarh, p. 35.
A systematic approach towards identification of a single protein responsible for synthesis and stabilization of silver nanoparticles. In: XIV International Conference on Nanostructured Materials (Nano-2018), June 24-29, 2018, City University of Hong Kong, Hong Kong.
Gene expression profiling of Escherichia coli K12 to unveil the silver resistance machinery. In: 6th Central European Symposium on Antimicrobials and Animircrobial Resistance (CESAR-2018), Crotian Microbiology Society, September 19-22, 2018, University of Zegreb, Zagreb, Croatia. (Best Poster Presentation Award).
Effect of lysozyme coated silver nanoparticles on the transcriptomic response of Klebsiella pneumonia MGH78578. In: European Congress of Clinical Microbiology & Infectious Disease (ECCMID-2019), April 13-16, 2019, Amsterdam, Netherlands.
Fungal-mediated degradation of polystyrene. In: 60th Annual Conference of Association of Microbiologists of India (AMI-2019) and International Symposium on “Microbial Technologies in Sustainable Development of Energy, Environment Agriculture and Health”. November 15-18, 2019, Central University of Haryana, Mahendragarh.
Can Similarities Between Plastics and Cuticular Wax Facilitate the myco-degradation of Plastics. In: “ASM Microbe 2020”, June 18-22, 2020, Chicago, Illinois, USA (Online).
One-pot synthesis of metal oxide-clay composite for the evaluation of dye removal studies: Taguchi optimization of parameters and antibacterial studies. In: “International Conference on Technological Interventions for Sustainability (CHEM-CONFLUX 22)”, April 14-16, 2022, Motilal Nehru National Institute of Technology Allahabad, Prayagraj, p. 67.
Understanding the surface micromorphology and chemical composition of the epicuticular wax over the leaves of xerophytes. In: “FEMS Conference on Microbiology”, June 30-July 02, 2022, Belgrade, Serbia (Online).
Rhizospheric plant microbe interactions: Key factor to soil fertility and plant nutrition. In: Plant Microbe Symbiosis: Applied Facets, N.K. Arora (Ed.), Springer, India, pp. 127-145.
Nano-fertilizers and their smart delivery system. In: Emerging Nanotechnologies in Agriculture, Rai, M., Ribeiro, C., Mattoso, L. and Duran, N. (Eds.), Springer, Switzerlandt, pp. 81-101.
Developing disease suppressive soil through agronomic management. In: Organic Amendments and Soil Suppressiveness in Plant Disease Management, Meghwanshi M.K. and Verma, A. (Eds.), Springer International Publishing, Switzerlandt, pp. 61-94.
Biocontrol of plant parasitic nematodes by fungi: efficacy and control strategies. In: Organic Amendments and Soil Suppressiveness in Plant Disease Management, Meghwanshi M.K. and Verma, A. (Eds.), Springer International Publishing, Switzerlandt, pp. 219-247.
Arbuscular mycorrhizal fungi (AMF) for sustainable soil and plant health in salt-affected soils. In: Bioremediation of Salt Affected Soils: An Indian Perspective, Arora, S. Singh, A.K. and Singh, Y.P. (Eds.), Springer International Publishing AG, DOI: 10.1007/978-3-319-48257-6_7.
Genomic data resources and data mining. In: Plant Bioinformatics, Hakeem, K.R., Malik, A., Vardar-Sukan, F. and Ozturk, M. (Eds.), Springer International Publishing AG, Switzerlandt, pp. 267-278.
Bacterial synthesis of metallic nanoparticles - Current trends and potential applications as soil fertilizer and plant protectants. In: Nanoscale Engineering in Agricultural Management, Raliya, R. (Ed.), CRC Press Taylor & Francis Group, Boca Raton, FL, pp. 30-63.
Myco-degradation of plastics. In: New and Future Developments in Microbial Biotechnology and Bioengineering, Singh, J. and Gehlot, P. (Eds.), Elsevier, Amesterdam, Netherlands, pp. 25-34.
Secondary plant metabolites and root exudates: guiding tools for polychlorinated biphenyl biodegradation. International Journal of Environmental Science and Technology, 12: 789-802.
Development of gold nanoparticle-fungal hybrid based heterogenous interface for catalytic applications. Process Biochemistry, 50: 1293-1300.
Aggregation induced phosphorescence’ active iridium(III) complexes for integrated sensing and inhibition of bacteria in aqueous solution. RSC Advances, 5: 61983-61988.
Removal of protein capping enhances the antibacterial efficiency of biosynthesized silver nanoparticles. PLoS ONE, DOI: 10.1371/journal.pone.0134337.
Utilizing metal tolerance potential of soil fungus for efficient synthesis of gold nanoparticles with superior catalytic activity for degradation of rhodamine B. Journal of Environmental Management, 183: 22-32.
Does seed size and surface anatomy play role in combating phytotoxicity of nanoparticles? Ecotoxicology, 26: 238-249.
Biosynthesized protein-capped silver nanoparticles induce ROS-dependent pro-apoptotic signals and pro-survival autophagy in cancer cells. ACS Omega, 2: 1489-1504.
Enhanced heavy metal removal using silver-yttrium oxide nanocomposites as novel adsorbent system. Journal of Environmental Chemical Engineering, 5: 5801-5814.
Formation and Characterization of Protein Corona around Nanoparticles: A Review. Journal of Nanoscience and Nanotechnology, 18: 6653-6670.
Mechanistic insights on plant root colonization by bacterial endophytes: a symbiotic relationship for sustainable agriculture. Environmental Sustainability, 1: 25-38.
Do physico-chemical properties decide the bactericidal impact of silver species? Materials Science and Engineering C, 90: 739-749.
Superior bactericidal efficacy of fucose functionalized silver nanoparticles against Pseudomonas aeruginosa PAO1 and prevention of its colonization on urinary catheters. ACS Applied Materials & Interfaces, 10: 29325-29337.
Synthesis and characterization of ecofriendly silver nanoparticles combined with yttrium oxide (Ag-Y2O3) nanocomposite with assorted adsorption capacity for Cu(II) and Cr(VI) removal: A mechanism perspective. Journal of Water Process Engineering, 32: 100917-100931.
Biomimetic approach for multifarious synthesis of nanoparticles using metal tolerant fungi: A mechanistic perspective. Materials Science and Engineering: B, 262: 114771-114778.
Revisiting the architecture, biosynthesis and functional aspects of the plant cuticle: there is more scope. Environmental and Experimental Botany, 183: 104364-104375.
Pre-coating of protein modulate patterns of corona formation, physiological stability and cytotoxicity of silver nanoparticles. Science of the Total Environment, 772: 144797-144808.
Silver nanoparticles induce a triclosan-like antibacterial action mechanism in multi-drug resistant Klebsiella pneumoniae. Frontiers in Microbiology, 12: 638640. doi: 10.3389/fmicb.2021.638640.
Functionalized Cu-based metal oxide nanoparticles with enhanced Cd+2 adsorption capacity and their ecotoxicity assessment by molecular docking. Journal of Environmental Management, 307: 114523.
Does silver in different forms affect bacterial susceptibility and resistance? A mechanistic perspective. ACS Applied Biomaterials, 5: 801-817.
The synthesis of xyloglucan, an abundant plant cell wall polysaccharide, requires CSLC function, 2020, PNAS (Impact factor, 9.4)
Glycosidase and flagellin glycan polymorphism control hydrolytic release of immunogenic peptides, 2019, Science, 364 (6436) (Impact factor, 41.8)
A Genotypic Comparison Reveals That the Improvement in Nitrogen Remobilization Efficiency in Oilseed Rape Leaves Is Related to Specific Patterns of Senescence-Associated Protease Activities and Phytohormones. Front. Plant Sci. 10
Multiplex fluorescent, activity-based protein profiling identifies active α-glycosidases and other hydrolases in plants. Plant Physiol. pp.00250.2018.
Proteomic Investigations of Proteases Involved in Cotyledon Senescence: A Model to Explore the Genotypic Variability of Proteolysis Machinery Associated with Nitrogen Remobilization Efficiency during the Leaf Senescence of Oilseed Rape. Proteomes 5.
Low Protease Content in Medicago truncatula Cell Cultures Facilitates Recombinant Protein Production. Biotechnol. J.
Inhibitor discovery by convolution Activity-Based Protein Profiling (ABPP) Methods in Molecular Biology 1491, 47-56
Machine Design & Drawing
Class Hrs
Beta galactosidases in Arabidopsis and tomato - a mini review. Biochemical society transactions 44(1), 150-158.
Activity-based protein profiling of hydrolytic enzymes induced by gibberellic acid in isolated aleurone layers of malting barley. FEBS letters 590 (17), 2956-62
Nicotinamide Cofactors Suppress Active-site Labeling of Aldehyde Dehydrogenases. ACS Chemical Biology 11 (6), 1578–1586.
Characterization of senescence-associated protease activities involved in the efficient protein remobilization during leaf senescence of winter oilseed rape. Plant Science 246, 139-53.
Subfamily-specific Fluorescent Probes for Cys proteases Display Dynamic Protease Activities During Seed Germination. Plant Physiol. pp.114.254466.
Broad-range Glycosidase Activity Profiling. Mol. Cell. Proteomics 13, 2787–2800.
Reevaluation of the reliability and usefulness of the somatic homologous recombination reporter lines. Plant Cell 24: 4314-4323.
Molecular Docking Study on the anti-inflammatory effect of Osthol and its derivatives towards human p38alpha MAP kinase International Journal of Bioinformatics 4: 1-9
D Joshi, A Purwar, M S Dasgupta Human detection based on explicit skin colour space thresholding and minor motion detection. INDICON 2014, IEEE Conference Pune; December 2014
Dileep Kumar Gupta, M S Dasgupta Simulation and performance optimization of finned tube gas cooler for trans-critical CO2 refrigeration system in Indian context, International Journal of Refrigeration, Elsevier 38 153-167 2014
Dileep Kumar Gupta Mani Sankar Dasgupta Chapter 10: Transcritical CO2 Refrigeration System in Tropical Region: Challenges and Opportunities Publication date 2015/7, Handbook of Research on Advances and Applications in Refrigeration Systems and Technologies, IGI Global Volume 1., Pages 370 - 401, doi:10.4018/978-1-4666-8398-3
Nilesh Purohit, Dileep Kumar Gupta, M S Dasgupta Effect of inter-stage pressure on the performance of a two stage refrigeration cycle using inter cooler, ICAER 2015, IIT Bombay
Simarpreet Singh, M S Dasgupta Work recovery scroll expander modeling for trans-critical CO2, refrigeration system at high ambient temperature, ICAER 2015, IIT Bombay
Dhruv Tandon Kshitij Patil, M S Dasgupta , Designing a Modular Rope Climbing Bot, (INDICON 2015, IEEE Conference New Delhi, Jamia Milia; 12/2015
D Joshi, A Purwar, M S Dasgupta Smart Control of Electric Lamp using Artificial Intelligence based Controller, INDICON 2015, IEEE Conference New Delhi, Jamia Milia; 12/2015
Nilesh Purohit, Dileep Kumar Gupta, M S Dasgupta Thermodynamic analysis of trans-critical CO2 refrigeration cycle in Indian context NCEEITET-15, at GCEIT Jammu, 2015
Simarpreet Singh, M S Dasgupta Evaluation of refrigerant options using TOPSIS-MADM technique, NCEEITET-15, at GCEIT Jammu, 2015
P Chansoria, P Solanki, M S Dasgupta Parametric study of transient temperature distribution in FSW of 304L stainless steel The International Journal of Advanced Manufacturing Technology, Springer September 2015, Volume 80, Issue 5, pp 1223–1239
Simarpreet Singh, M S Dasgupta Evaluation of research on CO2 trans-critical work recovery expander using multi attribute decision making methods, Renewable and Sustainable Energy Reviews, Elsevier 59, 119-129 2016
Simarpreet Singh, Nilesh Purohit, M S Dasgupta, Comparative study of cycle modification strategies for trans-critical CO2 refrigeration cycle in Indian context, Case Studies in Thermal Engineering, Elsevier. Vol. 7, March 2016, Pages 78–91
Nilesh Purohit, Dileep Kumar Gupta, Mani Sankar Dasgupta, 2017. “Two-Stage Carbon Dioxide Refrigeration Cycle, Lambert Academic Publishing (LAP), ISBN No. 978-3330322073.https://www.amazon.in/Two-Stage-Carbon-Dioxide-Refrigeration-cycles/dp/3330322071
Kapil Dev Choudhary, Mani Sankar Dasgupta, Shyam Sunder, Investigation of effect of suction nozzle pressure drop and degree of sub-cooling on co2 transcritical ejector system, 24th National and 2nd International ISHMT-ASTFE Heat and Mass Transfer Conference (IHMTC-2017), December 27-30, 2017, BITS-Pilani,Hyderabad Campus
Nilesh Purohit, Dileep Kumar Gupta, Mani Sankar Dasgupta, Theoretical analysis of four two-stage CO2 configurations for year round operation, ICAER 2017, 12 -14 DEC 2017, IIT Bombay
Nilesh Purohit, Dileep Kumar Gupta, M S Dasgupta, Experimental investigation of co2 trans-critical refrigeration system with and without internal heat exchanger for warm climate, 13th IIR-Gustav Lorentzen Conference on Natural Refrigerants, 18-20th June 2018, Valencia, SPAIN
Kapil Dev Choudhary, M S Dasgupta, Shyam Sunder, Comparative study on a dual temperature transcritical refrigeration cycle with two cascade ejectors, 13th IIR-Gustav Lorentzen Conference on Natural Refrigerants, 18-20th June 2018, Valencia, SPAIN
Nilesh Purohit, Dileep Kumar Gupta, Mani Sankar Dasgupta, Exergetic analysis of CO2 trans-critical refrigeration system with and without internal heat exchanger using experimental data, 5th IIR Conference on Sustainability and the Cold Chain (ICCC 2018), 06-08 April 2018 Beijing, China
Nilesh Purohit, Dileep K Gupta, M S Dasgupta, Experimental investigation of a CO2 trans-critical cycle with IHX for chiller application and its energetic and exergetic evaluation in warm climate, Applied Thermal Engineering, Elsevier, https://doi.org/10.1016/j.applthermaleng.2018.03.044
Paride Gullo, Nilesh Purohit, Mani Sankar Dasgupta, Armin Hafner, Krzysztof Banasiak, Comparative Study of Various Supermarket Refrigerating Systems In European Climate Context, 5th IIR Conference on Sustainability and the Cold Chain (ICCC 2018), 06-08 April 2018 Beijing, China
Paride Gullo, Nilesh Purohit, Mani Sankar Dasgupta, Armin Hafner, A Comparative Study On Energetic and Environmental Performance Of An Integrated R744 Multi-Ejector Enhanced Parallel Compression System In High Ambient Temperature Locations, 5th IIR Conference on Sustainability and the Cold Chain (ICCC 2018), 06-08 April 2018 Beijing, China
Kapil Dev Choudhary, M. S. Dasgupta, Shyam Sunder, Energetic And Exergetic Investigation of a Modified Dual Temperature Transcritical Refrigeration Cycle With Two Cascade Ejectors, 5th IIR Conference on Sustainability and the Cold Chain (ICCC 2018), 06-08 April 2018 Beijing, China
EGF-like domains are found in a variety of proteins and are usually implicated in protein-protein interactions. EGF-like domains can be categorized into 3 types TYPE-I, TYPE-II and TYPE-III EGF domains based upon their structure and function. EGF like Domains Analysis & Comparison Package is a web based Bioinformatic tool that can analyze the given sequence and predict if it contains EGF-like domains. Given a Sequence in any format, it would search for EGF type domains in it and also specify the positions of these domains if any. The tool is GUI based and has been developed using JAVA Applet Programming. EGF like Domains Analysis & Comparison Package also shows the relative graphical positioning of these domains and one can query for the sequences of these domains. The tool also consists of an EGF library, which has about 200 different sequences that contain EGF domains in them. The program uses basic Bioinformatic searching algorithm technique to match to a particular given sequence. It first searches for a set of six Cysteines in the sequence and passes it on for further analysis. Once a set of six Cysteines has been identified, the program looks for whether the given part of the sequence matches to Type-I, Type-II or Type-III domain, based on weight given to each type of domain. As the sequence is matched to each of the Types, a count is increased for each of them. The matching is first carried out on the basis of sequence and then based on the gaps between each of the Cysteines in each of the Domain Types. Once a residue is matched to the set standards the count is increased and once it does not match the count is decreased and so on for each of the domain. Finally all three counts are compared and the Type of Domain identified. If all the counts are too low to be compared then the result is ‘NO EGF like Sequences Found’.
Nilesh Purohit, Vishaldeep Sharma, Samer Sawalh, Brian Fricke, Rodrigo Llopis, Mani Sankar Dasgupta, Integrated supermarket refrigeration for very high ambient temperature. Energy, Elsevier, DOE:https://doi.org/10.1016/j.energy.2018.09.097
Nilesh Purohit, Sanjeev Jakhar, Paride Gullo, Mani Sankar Dasgupta, Heat transfer and entropy generation analysis of alumina/water nanofluid in a flat plate PV/T collector under equal pumping power comparison criterion, Renewable Energy, Elsevier, May 2018, https://doi.org/10.1016/j.renene.2017.12.066
Kapil Dev Choudhary, Ashish Nayyar, Mani Sankar Dasgupta, Effect of compression ratio on combustion and emission characteristics of C.I. Engine operated with acetylene in conjunction with diesel fuel, Fuel, Elsevier, Volume 214, 15 February 2018, Pages 489-496
Nilesh Purohit, Dileep K Gupta, M S Dasgupta, Experimental investigation of a CO2 trans-critical cycle with IHX for chiller application and its energetic and exergetic evaluation in warm climate, Applied Thermal Engineering, Elsevier, https://doi.org/10.1016/j.applthermaleng.2018.03.044
Santosh Kumar Saini, Mani Sankar Dasgupta, Kristina N. Widell, Souvik Bhattacharyya, Thermal and economic analysis of an on-board compensatory refrigeration system for small fishing boats, 25th National and 3rd International ISHMT - ASTEF Heat and Mass transfer Conference, Roorkee India, December 28-31, 2019
Nilesh Purohit, Mani Sankar Dasgupta, Thermal Storage Material Enhanced Refrigerated Display Cabinet, International Conference on Recent Advances in Materials & Manufacturing Technologies (IMMT 2017), BITS Pilani, Dubai Campus, UAE, November 28-29th, 2019
Nilesh Purohit, M S Dasgupta, Numerical Investigation Of A Hybrid (Cu-Alumina) Nanofluid Cooled Double Pipe Gas Cooler For a Trans-Critical CO2 Refrigeration System, International Conference ICNBL-2019 held at at NIT Srinagar, 7th to 11th April 2019
Mani Sankar Dasgupta, Srikanta Routroy, Kristina N. WIDELL Souvik Bhattacharyya, Maitri Thakur, A Strategy for improved temperature control in the supply and processing stages of Surimi cold chain in India. 25th IIR International Congress of Refrigeration, Montreal Canada, August 24-30, 2019
Srikanta Routroy, Mani Sankar Dasgupta, Maitri Thakur, Souvik Bhattacharyya, Kristina N. Widell, Surimi value chain in India: A strategy for improved resource utilization. 25th IIR International Congress of Refrigeration, Montreal Canada, August 24-30, 2019
(2005). Plasmodium vivax malaria. Emerging Infectious Diseases; 2005. 11(1), 132-134.
An unexpected cause of fever and seizures. The Lancet; 2007. 370(9590), 908.
A glimpse into the clinical proteome of human malaria parasites Plasmodium falciparum and Plasmodium vivax. Proteomics Clinical Applications; 2009. 3(11), 1314–1325.
Darmanaden Soobena, Nilesh Purohit, Romeela Moheec, Francis Meunierd, Mani Sankar Dasgupta, R744 refrigeration as an alternative for the supermarket sector in Small Tropical Island Developing States: The Case of Mauritius https://doi.org/10.1016/j.ijrefrig.2019.03.034
Nilesh Purohit,Vishaldeep Sharma, Brian Fricke, Dileep Kumar Gupta, Mani Sankar Dasgupta, Parametric analysis and optimization of CO2 trans-critical cycle for chiller application in a warm climate, doi.org/10.1016/j.applthermaleng.2019.01.023
Severe Plasmodium vivax Malaria: A Report on Serial Cases from Bikaner in Northwestern India. The American Journal of Tropical Medicine and Hygiene; 2009. 80(2), 194-198.
Revealing natural antisense transcripts from Plasmodium vivax isolates: Evidence of genome regulation in complicated malaria. Infection, Genetics and Evolution; 2013. 20, 428–443.
Natural Antisense Transcripts in Plasmodium falciparum isolates from patients with complicated malaria. Experimental Parasitology; 2014. 141, 39-54.
Plasmodium falciparum complicated malaria: Modulation and connectivity between exportome and variant surface antigen gene families. Molecular and Biochemical Parasitology; 2015. 201(1), 31–46.
Disease specific modules and hub genes for intervention strategies: A co-expression network based approach for Plasmodium falciparum clinical isolates. Infection, Genetics and Evolution; 2015. 35, 96-108.
Design, construction and validation of a Plasmodium vivax microarray for the transcriptome profiling of clinical isolates. Acta Tropica; 2016. 164, 438-447.
Reduction of sphingosine kinase 1 phosphorylation and activity in Plasmodium-infected erythrocytes. Frontiers in Cell and Developmental Biology; 2020. 80(8), 1-15.
Conserved Plasmodium Protein (PF3D7_0406000) of Unknown Function: In-silico Analysis and Cellular Localization. Infection, Genetics and Evolution; 2021. 92(104848), 1-9.
Microfluidic paper device with on-site heating to produce reactive peroxide species for enhanced smartphone enabled chemiluminescence signal. Talanta; 2022. 236 (122858), 1-8.
Dasgupta, M. S, et al. . ReValue project Report–D1.3: Report on energy efficient refrigeration systems-Surimi case. (2020). ISBN 978-82-7174-394-9 Dasgupta, M. S, et al. (2020). ReValue project Report–D1.2: Logistics and Cold Chain Management Concepts. (2020). A-094. RCN 978-82-7174-393-2 Dasgupta, M. S, et al. ReValue Project Report Deliverable D1.1: Value stream map and supply chain interdependencies in India. ISBN 978-82-7174-375-8
Kapil Dev Choudhary, M S Dasgupta, Shyam Sunder, Effect of motive nozzle exit position in a R-744 two phase ejector, 1st Online International Conference on Recent Advances in Computational and Experimental Mechanics, IIT Kharagpur , ICRACEM 2020 Santosh Kumar Saini, Mani Sankar Dasgupta, Kristina N. Widell, Souvik Bhattacharyya, Performance evaluation of a multi-evaporator NH3-CO2 cascade refrigeration system with IHX for seafood processing industry, The 14th IIR-Gustav Lorentzen Conference on Natural Refrigerants - GL2020,
Purohit, N., & Dasgupta, M. S., Thermal storage material enhanced refrigerated display cabinet. Materials Today: Proceedings, Volume 28, Part 2, Pages 510-514 (2020)
S K Saini, M Dasgupta, K N.Widell, S Bhattacharyya. Comparative Analysis of a Few Novel Multi-evaporator CO2-NH3 Cascade Refrigeration System for Seafood Processing & Storage. International Journal of Refrigeration, DOI: https://doi.org/10.1016/j.ijrefrig.2021.07.017 S Singh, B Trivedi, M S Dasgupta, S Routroy. A bibliometric analysis of circular economy concept in E-waste research during the period 2008–2020, Materials Today: Proceedings S Singh, MS Dasgupta, S Routroy, Analysis of Critical Success Factors to Design E-waste Collection Policy in India: A Fuzzy DEMATEL Approach, Springer Environ Sci Pollut. Res. (2021). https://doi.org/10.1007/s11356-021-16129-x
K D Choudhary, S S Yadav, M S Dasgupta, Classical nucleation theory based simulations of non-equilibrium condensation of carbon dioxide inside converging–diverging nozzles. , ASTFE 5th–6th Thermal and Fluids Engineering Conference (TFEC), May 26-28, 2021
Kapil Dev Choudhary, Shyam Sunder Yadav, M S Dasgupta, Simulation of the Phase Change Process of Carbon Dioxide Inside an Ejector Geometry. March 2021, Conference: 2nd International Conference on Recent Advances in Fluid and Thermal SciencesAt: Dubai, UAE.
Kapil Dev Choudhary, M S Dasgupta, Shyam Sunder, Ejector Expansion Transcritical R744 Refrigeration System Analysed for Various Climate Zones of India. March 2021, Conference: 2nd International Conference on Recent Advances in Fluid and Thermal Sciences At: Dubai, UAE.
Santosh Kumar Saini, Mani Sankar Dasgupta, Kristina Norne Widell and Souvik Bhattacharyya. Natural refrigerant based cascade system for seafood application, FMFP 2021, BITS Pilani, Pilani Campus, December 27-29, 2021
Leo Daniel Alexander, Sanjeev Jakhar and Mani Sankar Dasgupta, Pressure drop analysis for U-tube Evacuated Tubular Collector. FMFP 2021, BITS Pilani, Pilani Campus, December 27-29, 2021
Ayan Sengupta, Mani Sankar Dasgupta, Thermodynamic analysis of a novel dual-ejector multi-compressor transcritical-CO2 refrigeration system for Supermarket applications in warm climates. FMFP 2021, BITS Pilani, Pilani Campus, December 27-29, 2021
KD Choudhary, MS Dasgupta, SS Yadav, Effect of Motive Nozzle Exit Position in a R-744 Two-Phase Ejector, Recent Advances in Computational and Experimental Mechanics, Springer (LNME), Singapore Vol—I, 237-247
Involved in the creation of a team of individuals, with varying talents, to enhance teaching at both first degree and higher degree levels and strongly emphasize and implement a research focus in the Group. The basic caveat followed was that creative, target oriented research is a natural basic requirement for creative teaching, and would enhance quality of the overall educational experience. Involved in providing the leadership required to attempt excellence in the Department, which encompassed various aspects, ranging from facility design, fund arrangement, supply chain management and all types of maintenance related issues. It was an exhilarating experience to attempt to create a hygienic work environment for the benefit of students, faculty colleagues and the BITS system, which has strong links with various National and International Systems.
As Leader, Task Force 8 (TF8), People (Hygiene), involved in conceptualization and implementation of Policies such as the BITS Seed Grant Scheme, BITS Sabbatical Policy, the BITS Start-UP Policy (for providing some initial funding to recruited faculty) and others- aimed at providing a suitable work environment for the furtherance of education.
One of the nodal control points for conceptualization, implementation and monitoring of all processes related to the PhD Programme of BITS (across campuses and the PhD Aspirants Scheme). Actively involved in process formalization and standardization across campuses with the objective of enhancing creative research and ensuring quality of the work performed. Nodal control point for monitoring and facilitation of project related funding from various sources, in Pilani campus. Facilitator, for Higher Degree and First Degree Research Oriented Courses. Involved in multi-divisional activities required for achieving the points mentioned above.
BITS F415 - Micro-Electro-Mechanical Systems (MEMS) [Lecture 3 hours per week, Lab 4 hours per week]
BITS F415 - Micro-Electro-Mechanical Systems (MEMS) [Lecture 3 hours per week, Lab 4 hours per week]
BITS F415 - Micro-Electro-Mechanical Systems (MEMS) [Lecture 3 hours per week, Lab 4 hours per week]