Shiksha, Krishnendra Shekhawat (2025). Linear-time algorithm for generating L-shaped floorplans using canonical ordering technique, Journal of Combinatorial Optimization (accepted).
Shiksha, Sudarshan Anand, Krishnendra Shekhawat, Karan Agrawal, (2025) Automated generation of Circulations within a floorplan, Artificial Intelligence for Engineering Design, Analysis and Manufacturing (accepted).
Pinki, Krishnendra Shekhawat, Akshat Lal (2025) Automated Generation of Floor Plans with Minimum Bends, Artificial Intelligence for Engineering Design, Analysis and Manufacturing 39: 1 – 20.
Raveena, Krishnendra Shekhawat (2025) Construction of non-rectangular floor plans for properly triangulated planar graphs, Lecture Notes in Electrical Engineering, 1234: 331 – 348.
Rohit Lohani, Krishnendra Shekhawat (2024) Construction of Floorplans for Plane Graphs over Polygonal Boundaries, Journal of Combinatorial Optimization 48(22): 1 – 25.
Pinki, Krishnendra Shekhawat, Dipam Goswami, Ujjwal Jain (2024) Generation of Dimensioned Floor Plans for a given Boundary Layout, Soft Computing in Civil Engineering, 8(3): 1 – 10.
Vinod Kumar, Krishnendra Shekhawat (2024) On the characterization of rectangular duals, Notes on Number Theory and Discrete Mathematics, 30(1): 141 – 149.
Vinod Kumar, Krishnendra Shekhawat (2024) Uniqueness of Rectangularly Dualizable Graphs, Communications in Combinatorics and Optimization, 9(1): 13 – 25.
Pinki, Krishnendra Shekhawat (2023) Linear-time construction of floor plans for plane triangulations, Communications in Combinatorics and Optimization, 8(4): 673 – 692.
Vinod Kumar, Krishnendra Shekhawat (2023) Transformations among rectangular partitions, Transactions on Combinatorics12(3): 142 – 163.
Raveena, Krishnendra Shekhawat (2023) A Theory of L-shaped Floor-plans, Theoretical Computer Science, 942: 57 – 92.
Pinki, Krishnendra Shekhawat (2023) An Algorithm for Customizing Slicing Floor Plan Design. Lecture Notes in Networks and Systems, 641: 25 – 35.
Pinki, Krishnendra Shekhawat (2023) An annotated review on graph drawing and its applications, AKCE International Journal of Graph and Combinatorics, 20(3): 258 – 281
Shiksha, Krishnendra Shekhawat, Aishwarya Komdaveeti, Sujoy Rastogi, Jose P. Duarte (2023) Rectangular floorplans with block symmetry, CAADRIA 2023, 2: 391 – 400.
Pinki, Krishnendra Shekhawat(2022) Characterization of Graphs Based on Number of Bends in Corresponding Floor plans. ACM International Conference Proceeding Series, 1 – 8.
Sumit Bisht, Krishnendra Shekhawat, Nitant Upasani, Rahil Jain, Riddhesh J. Tiwaskar, Chinmay Hebbar (2022) Transforming an Adjacency Graph into Dimensioned Floorplan Layouts, Computer Graphics Forum, 41(6): 5 – 22.
Jiachen Liu, Yuan Xue, Jose Duarte, Krishnendra Shekhawat, Zihan Zhou, Xiaolei Huang (2022) End-to-end Graph constrained Vectorized Floorplan Generation with Panoptic Refinement,Lecture Notes in Computer Science, 13675: 547 – 562.
Krishnendra Shekhawat (2022) A Mathematical Approach for Generating a Floor Plan for given Adjacency Requirements. In: Gero J. (eds) Design Computing and Cognition’20, pp 247–266.
Krishnendra Shekhawat, Rahil Jain, Sumit Bisht, Aishwarya Kondaveeti, Dipam Goswami (2021) Graph-based Approach for Enumerating Floorplans Based on User Specifications, Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 35(4): 438 – 459.
Krishnendra Shekhawat, Nitant Upasani, Sumit Bisht, Rahil Jain (2021) A Tool for Computer-Generated Dimensioned Floorplans based on given Adjacencies, Automation in Construction, 127: 1 – 21.
Vinod Kumar,Krishnendra Shekhawat(2021) A Transformation Algorithm to Construct a Rectangular Floorplan, Theoretical Computer Science, 871: 94 – 106.
Krishnendra Shekhawat (2021) A Graph Theoretic Approach for the Automated Generation of Dimensioned Floorplans. PROJECTIONS, Proceedings of the 26thInternational Conference of the Association for Computer-Aided Architectural Design Research in Asia(CAADRIA) 2021: 141 – 150.
Vinod Kumar, Krishnendra Shekhawat (2021) Rectangularly Dualizable Graphs: Area-Universality, Advances and Applications in Discrete Mathematics, 28(1): 75-91.
Nitant Upasani, Krishnendra Shekhawat, Garv Sachdeva (2020) Automated generation of dimensioned rectangular floorplans, Automation in Construction, 113: 1 – 11.
Krishnendra Shekhawat, Pinki (2020) Construction of architectural floor plans for given adjacency requirements. RE: Anthropocene, Proceedings of the 25th International Conference of the Association for Computer-Aided Architectural Design Research in Asia(CAADRIA) 2020(1): 315 – 323.
Krishnendra Shekhawat, Pinki, Jose P. Duarte (2019) A Graph Theoretical Approach for Creating Building Floor Plans. Communications in Computer and Information Science,1028: 3 – 14.
Krishnendra Shekhawat, Jose P. Duarte (2018) Introduction to generic rectangular floor plans, AIEDAM: Artificial Intelligence for Engineering Design, Analysis and Manufacturing,32(3): 331 – 350.
Krishnendra Shekhawat (2017) Mathematical propositions associated with the connectivity of architectural designs. Ain Shams Engineering Journal8(4): 653 – 661.
Krishnendra Shekhawat (2017) A computer-generated plus-shaped arrangement and its architectural applications. Journal of Computational Design and Engineering, 4(4): 318 – 329.
Krishnendra Shekhawat, Jose P. Duarte (2017) Rectilinear Floor Plans. Communications in Computer and Information Science, 724: 395 – 411.
Krishnendra Shekhawat, Jose P. Duarte (2017) Automated Best Connected Rectangular Floorplans. In: Gero, J. (eds) Design Computing and Cognition '16.
Krishnendra Shekhawat (2015) Computer-aided architectural designs and associated covariants. Journal of Building Engineering3: 127 – 134.
Krishnendra Shekhawat (2015) Why golden rectangle is used so often by architects: A mathematical approach. Alexandria Engineering Journal,54: 213 – 222.
Krishnendra Shekhawat (2015) Automated space allocation using mathematical techniques. Ain Shams Engineering Journal, 6: 795 – 802.
Krishnendra Shekhawat (2014) Algorithm for Constructing an Optimally Connected Rectangular Floor Plan. Frontiers of Architectural Research,3: 324 – 330.