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Prof. T S L Radhika

hyderabad Mathematics

Associate Professor
Department of Mathematics

Fluid dynamics
Birla Institute of Technology & Science, Pilani
Hyderabad Campus
Jawahar Nagar, Kapra Mandal
Dist.-Medchal-500 078
Telangana, India
radhikatsl@hyderabad.bits-pilani.ac.in
+91 40 66303579

Conference Paper Presentations

  1. T S L Radhika, T Raja Rani, Shor's Algorithm – Oracle Design for Perfect Squares, International Conference on Mathematical Modelling Analysis and computing-2023, Thiruvalluvar University, October 21-22, 2023
  2. Debismita Nayak, T S L Radhika, On Building Machine Learning Models for Medical Data Set with Correlated Features, National Conference on Recent Trends in Mathematical Biology - Theory, Methods and Applications, Sri Satya Sai Institute of Higher Learning, Puttaparthi, July 20-22, 2023.
  3. Debismita Nayak, Ketana K, T S L Radhika, A Pipeline Network Model for Blood Flow Analysis, International Conference on Mathematical Modelling and Emerging Trends in Computing (ICMMETC-2023), WOXSEN University, Hyderabad, June 23-25, 2023.
  4. Ketana K, Karthik A, T S L Radhika, Exploratory Analysis on Blood Flow Model's Data Set, 13th INTERNATIONAL CONFERENCE ON SCIENCE AND INNOVATIVE ENGINEERING, Jawahar Engineering College, Chennai and Samarkand State University, Uzbekistan, India, 14, May 2023.
  5. T Raja Rani, D P Sree Pranavi, T S L Radhika, "A STUDY ON THE BLOOD FLOW IN CAROTID ARTERY BIFURCATION", IEEE NKCon-2022, Flagship International Conference of IEEE North Karnataka, subsection in association with IEEE Bangalore Section and IEEE ITS hosted by BLDEA's V.P. Dr. P.G. Halakatti College of Engineering and Technology, Vijayapur, Karnataka, India, 20 – 21, November 2022.
  6. Debismita Nayak, Ketana K, T S L Radhika, A Model for Blood Flow in Human Femoral arteries, International Conference on Advances in Transport Phenomena, VIT, AP, July 2022.
  7. Ketana K, T S L Radhika, Numerical Modeling of Blood Flow in the Human Arterial System, National Conference of Academy for Progress of Mathematics on Recent Advances in Mathematical Analysis and Applications, BHU, May 2022.
  8. Debismita Nayak, T S L Radhika, Pipeline Network Model for Arterial Blood Flow Analysis, National Conference of Academy for Progress of Mathematics on Recent Advances in Mathematical Analysis and Applications, BHU, May 2022.
  9. T Raja Rani, P Shalini, T S L Radhika, FORECASTING COVID-19 CASES USING MACHINE LEARNING MODELS, 23rd Gulf Forum, The Engineer and Disaster's Challenges, March 2022.
  10. Karthik A, Ketana K, Radhika T S L, A Non-Newtonian Fluid Model for Blood Accounting Haematological Disorders, PDEU, Gujarat, March 2022.
  11. Karthik A, Shriya M, Nithin Reddy B, Ketana K, T S L Radhika, A Substantial Model for Blood Flow, PDEU, Gujarat, March 2022.
  12. T Raja Rani, T S L Radhika, Can Vaccination decline the Rapid Spread of COVID-19, MMCITRE 2022, PDEU, Gujarat, March 2022.
  13. Shriya, M., Karthik, A. & Radhika, TSL Mathematical Blood Flow Model - Simulations and Data Analysis, IBSSC-2021 (IEEE), Gwalior, November-2021.
  14. Karthik, A., Praveen Kumar, P.T.V. & Radhika, TSL A Mathematical Model for Blood Flow Accounting for the Haematological Disorders, Indo-US Conference – II, SSSIHL, Puttaparthi, Ananthapur, Andhra Pradesh, October-2021.
  15. T S L Radhika, T Rajarani, On a study of the flow past non-Newtonian fluid bubbles, 5th International Conference on Mathematical Models & Computational Techniques in Science & Engineering (MMCTSE 2021), London, UK, February 22-24, 2021. (Virtual presentation)
  16. T S L Radhika, T Rajarani, A Revisit to the Problem of Flow past a Pair of Separated Solid Spheres, 2nd International Conference on Mathematical Modeling, Computational Intelligence Techniques and Renewable Energy, February 06 - 08, 2021.
  17. Karthik A, T S L Radhika, P T V Praveen Kumar, An approach for Identifying Significant Parameters in Blood flow through Human Arteries, ICMMAAC-19, JECRC University, Jaipur, 8-10, August 2019.
  18. Karthik A, Sashank K, T S L Radhika, A study on the effect of various fluid, flow and mechanical parameters on the flow of Newtonian fluid in an expanding and contracting pipe, ICACM, IIT- Kharagpur, 2018.
  19. Karthik A, T S L Radhika, A Study on the Effect of Womersley and Strouhal Numbers on the Oscillatory Flow of a Newtonian Fluid in a Tapered Pipe, 62nd ISTAM Congress - 2017.
  20. T S L Radhika, M. B Srinivas, Evaluation of Mathematical models for estimation of arterial stiffness through pulse transit time measurement, IEEE Health care Innovations, Point- of- Care technology conference, Seattle, USA, Oct 8-10, 2014.
  21. Avinash S. Vaidya, T.S.L. Radhika, M.B. Srinivas: Estimation of Arterial Stiffness through pulse transit time measurement, BIODEVICES 2014 - International Conference on Biomedical Electronics and Devices, Loire Valley, France, pp 238-242, March 3-6, 2014.
  22. TSL Radhika and M.B Srinivas, Arterial Stiffness through Pulse Transit Time measurement, International Conference on Life Sciences and Biological Engineering, Osaka, Japan, Nov 2013.
  23. TSL Radhika and T.K.V Iyengar, Stokes flow of an incompressible couple stress fluid past a porous spheroidal shell, International MultiConference of Engineers and Computer Scientists, Hongkong, March 2010.
  24. T.K.V.Iyengar and T.S.L.Radhika, Stokes flow of an incompressible couple stress fluid past a porous spheroid. APSMS 19th congress at Visakhapatnam, Dec, 2009.
  25. T.K.V.Iyengar and T.S.L.Radhika, Rotatory Oscillations of an approximate sphere in an elastico viscous fluid, ISTAM, 51st Congress at Visakhapatnam, Dec, 2006.
  26. T.K.V.Iyengar and T.S.L.Radhika, Rectilinear Oscillations of an approximate Sphere in Viscoelastic fluids, APSMS, 15th Congress at Warangal, Aug 2006.

Books and Book Chapters

  • Chapter 34. A Substantial Model for Blood Flow, Karthik A, Shriya M, Nithin Reddy B, Ketana K, T S L Radhika, Mathematical Modeling, Computational Intelligence Techniques, and Renewable Energy, Springer Nature, 2023 (In print) DOI: 10.1007/978-981-19-9906-2-34.
  • Chapter 29. A Non-Newtonian Fluid Model for Blood Accounting for the Haematological Disorders, Karthik A, Ketana K, T S L Radhika, Mathematical Modeling, Computational Intelligence Techniques and Renewable Energy, Springer Nature, 2023 (In print) DOI: 10.1007/978-981-19-9906-2-29.
  • Chapter 6. Can Vaccinations Reduce the Rapid Spread of COVID-19?
    T Raja Rani, TSL Radhika and Pukkella Shalini, Novel Developments in Computational Intelligence Systems and Their Applications in Multidisciplinary Areas, Nova Science Publishers, 2023. https://doi.org/10.52305/WGNU9162
  • Published notes T S L Radhika (2021), "2021-Radhika, T. S. L. - Notes on Frobenius method," https://www.simiode.org/resources/8785.
  • Published a book chapter in Advances in Applied Science and Technology, 6. (Print-ISBN Number: 978-93-89246-74-2 e-ISBN Number: 978-93-89246-75-9), 2019.
  • TSL Radhika, T. K. V. Iyengar and T. RajaRani, Approximate Analytical Methods for Solving Ordinary Differential Equations, Boca Raton: CRC Press, Taylor and Francis Group, 2015.

Publications

  1. T Raja Rani et al. ML-Based Approach to Predict Carotid Arterial Blood Flow Dynamics, Contemporary Mathematics, 5, 2023, 1-16.
  2. Rani, T. Raja, Woshan Srimal, Abdullah Al Shibli, Nooh Zayid Suwaid Al Bakri, Mohamed Siraj and T. S. L. Radhika. Quantile Loss Function Empowered Machine Learning Models for Predicting Carotid Arterial Blood Flow Characteristics. WSEAS Transactions on Biology and Biomedicine, 20, 2023, 155-170.
  3. Ketana K, Karthik A, T S L Radhika, Exploratory Analysis on Blood Flow Models' Data Set, European Chemical Bulletin, 12, Special Issue-1(Part-B), 2023.
  1. T S L, Radhika & T, Raja Rani. (2023). Shor's Algorithm – How Does it Work on Perfect Squares? 10.21203/rs.3.rs-2564168/v1.
  1. Sree Hari Rao and T S L Radhika. The Dynamics of the Flow of Blood in the Human Circulatory System, Differential Equations and Dynamical Systems, 30, 1-13, 2022.
  1. Karthik, P. T. V. Praveen Kumar, and T. S. L. Radhika. A Mathematical Model for Blood Flow Accounting for the Hematological Disorders, Comput. Math. Biophys, 10, 184-198, 2022.
  1. Karthik, A., Radhika, T. S. L & Praveen Kumar, P.T.V. Mathematical Modeling of Blood Flow Through Human Femoral Arteries and the Analysis of Model Parameters.  J. Appl. Comput. Math8, 30, 2022. 
  1. S. L. Radhika, A Model for Fluid Flow in a Network of Pipes with Special Reference to Blood Flow in Arteries, J. Innovation Sciences and Sustainable Technologies,1(4), 325-340, 2021.
  1. Shriya, A. Karthik and T. S. L. Radhika, Mathematical Blood Flow Model - Simulations and Data Analysis, 2021 IEEE Bombay Section Signature Conference (IBSSC), 2021, pp. 1-6, doi: 10.1109/IBSSC53889.2021.9673261.
  1. Sai Lakshmi Radhika Tantravahi, Raja Rani Titti, A Revisit to The Problem of Flow Past a Pair of Separated Solid Spheres, Structural Integrity And Life, Vol. 21, Special Issue (2021), S55–S63, 2021.
  1. Sree Hari Rao and T. S L. Radhika and PTV Praveen Kumar, Towards a Comprehensive Understanding of COVID-19 Pandemic, J. Innovation Sciences and Sustainable Technologies, 1(2), 139 – 152, 2021.
  1. T S L Radhika, T Raja Rani, On a PDE model for application in Industrial Engineering, The Journal of ZEPHYRUS, Volume 11 Issue - 5, 153-168, 2021.

 

  1. S. L. Radhika, T. Raja Rani, On a Study of Flow Past Non-Newtonian Fluid Bubbles, WSEAS Transactions on Fluid Mechanics, vol. 16, pp. 79-91, 2021. 
  1. Karthik Alasakani, Radhika S.L. Tantravahi, Praveen Kumar P T V, On Refining the Input Data set to Mathematical Models Simulating Arterial blood flow in Humans, WSEAS Transactions on Fluid Mechanics, ISSN / E-ISSN: 1790-5087 / 2224-347X, Volume 16, 63-73, 2021.
  1. T S L, Radhika., & T, Raja Rani, Flow Past a Pair of Separated Porous Spheres using Brinkman model. MATEMATIKA: Malaysian Journal of Industrial and Applied Mathematics, 37(1), 15–33, 2021.
  1. T Raja Rani, T S L Radhika, P Shalini, Optimal Machine Learning Methods to Forecast COVID-19 cases, American Journal of Biomedical Science and Research, 11(1), 2020.
  1. T S L Radhika, T Raja Rani, A Karthik, Time-Dependent Flow of a Couple Stress Fluid in an Elastic Circular Cylinder with Application to the Human Circulatory System, Academic Journal of Applied Mathematical Sciences Vol. 6, Issue. 7, 126-135, 2020.
  1. 1T S L Radhika, T Raja Rani, Divy Dwivedi. Creeping Flow of a Viscous Fluid past a Pair of Porous Separated Spheres, Bulletin of Pure and Applied Sciences. E Math. Stat. 39E(1), 58–76, 2020. DOI: 10.5958/2320-3226.2020.00005.3
  1. A Karthik, T S L Radhika, P T V Praveen Kumar, An Approach to Identify Significant parameters in Blood flow through Human Arteries, Science and Technology Asia, Vol 25(1), 95-105, 2020.
  1. Karthik, K. Sashank, T S L Radhika, A Study on the Effect of Various Fluid, Flow and Mechanical Parameters on the Flow of Newtonian Fluid in an Expanding and Contracting Pipe, Chapter-8, Springer Proceedings in Mathematics & Statistics, SomnathBhattacharya etal: MATHEMATICAL MODELING AND COMPUTATIONAL TOOLS, ICACM- 2018 (Kharagpur, India, November 23–25), 2020.
  1. T S L Radhika, M B Srinivas, T Raja Rani, A Study on the Oscillatory Flow of a Newtonian Fluid in a Tapered Pipe, Far East Journal of Applied Mathematics, Vol 99, 289-307, 2018.
  1. T S L Radhika, M B Srinivas, T Raja Rani, A Karthik, Unsteady flow of a Newtonian fluid in Contracting and Expanding pipe, International Journal of Mathematical models and methods in Applied Sciences, Vol 12, 21-25, 2018.
  1. T S L Radhika, T Raja Rani, Brindha S, Application of the Differential Transformation Method in the Study of Blood Flow in Human Arteries, Bulletin of Pure and Applied Sciences, Section E – Math. & Stat., 36(2), 227-233, 2017.
  1. T Raja Rani, T S L Radhika, J M Blackledge, The effects of viscous dissipation on convection in a porous medium, Mathematica Aeterna, 7(2), 131-145, 2017.
  1. T S L Radhika, T Raja Rani, T V V S Madhavi, S Sushanth, Power Series Method and Asymptotic Method for the Stability of Linear Systems with Time-Varying Coefficients, Journal of Basic and Applied Research International, Vol 15(2), 131-139, 2016.
  1. T Raja Rani, T S L Radhika, Rajendar P, Comparison of HAM and Numerical solutions for a free convection problem with variable fluid properties, Heat source/sink and Radiation, Journal of Information and Optimization Sciences, Vol 37(3), 405-422, 2016. 
  1. T S L Radhika, T Raja Rani, Pulsatile flow of micropolar fluid in an elastic tube – a model developed for estimating arterial stiffness, Asian Journal of Mathematics and Computer Research, Vol 7(2), 140-147, 2015. 
  1. T S L Radhika, Aditya A, Rohit P, Comparison of ham and exact solutions for the problem of couple stress fluid flow in a circular pipe, American Journal of Applied Mathematics, Vol 4(1), January-June 2015, 63-69, 2015.
  1. T S L Radhika, T K V Iyengar, Stokes flow of an incompressible couple stress fluid past a porous spheroid, Indian Journal of Mathematics and Mathematical Sciences, Vol 11 (1),63-86, 2015.
  2. T K V Iyengar, T S L Radhika, Stokes Flow Of An Incompressible Micropolar Fluid Past A Porous Spheroid, Far East Journal of Applied Mathematics, Vol 90(2), 115-147, 2015.
  3. T K V Iyengar, T S L Radhika,  Couple Stress Fluid Past A Porous Spheroidal Shell With Solid Core Under Stokesian Approximation,  Journal of Scientific research and reports, 6(1), 43-60, 2015.
  4. T RajaRani, T S L Radhika, Rajender Palli, An Application of HAM for MHD Heat Source Problem with Variable Fluid Properties, Advances in Theoretical and Applied Mechanics, Vol. 7 (2), 79 – 89, 2014.   
  5. T S L Radhika, Ritesh Rai, HAM for finding solutions to a coupled system of variable coefficient equations arising in fluid dynamics, Advances in Applied Science Research, 5(5), 70-81, 2014. 
  6. T S L Radhika, BLR Deepika, State-space Approach for solving Transient Queuing Systems, Transylvanian Journal of Mathematics and Mechanics,     Vol 6, 53-57, 2014.
  7. T K V Iyengar, T S L Radhika, Stokes Flow of an Incompressible Micropolar fluid past a porous spheroidal shell with liquid core, Canadian Applied Mathematics Quarterly, Vol 21 (3), 321-354, 2013.
  8. T.K.V. Iyengar and TSL Radhika: Stokes flow of an incompressible micropolar fluid past a porous spheroidal shell, Bulletin of the Polish Academy of Sciences, pp 63-74, Vol 59, No 1, 2011.
  9. T. K. V. Iyengar and T S L Radhika: Rectilinear Oscillations of an approximate Sphere in Viscoelastic fluids, International Journal of Mathematics, Computer Science and Technology, Vol 2, 95-106, 2009.

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