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Integrated First Degree

B.E.(Biotechnology)
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B.E.(Electrical and Electronics)
B.E.(Electronics and Communication)
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M.E.(Civil with specialization in Structural Engineering)
M.E.(Civil with specialization in Transportation Engineering)
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Krishnendra Shekhawat

pilani Mathematics

Associate Professor, Department of Mathematics,
BITS Pilani, Pilani Campus

Algorithmic Graph Theory, Architectural Design
Department of Mathematics, Birla Institute of Technology & Science, Pilani- 333031, Rajasthan. India.
krishnendra.shekhawat@pilani.bits-pilani.ac.in
https://www.linkedin.com/in/krishnendra-shekhawat-17698b73/

Publication List

  1. Carta, S.,Shekhawat, K., Ambrosini, L., Turchi, T., Vidal, M., (2025) Non-trivial self-organised floor plans: an optimisation strategy, Nexus Network Journal, accepted.
  2. Raveena, Shekhawat, K., (2025) Construction of non-rectangular floor plans for properly triangulated planar graphs, Lecture Notes in Electrical Engineering, 1234: 331 – 348.
  3. Lohani, R., Shekhawat K. (2024). Construction of Floorplans for Plane Graphs over Polygonal Boundaries, Journal of Combinatorial Optimization 48(22): 1 – 25.
  4. Pinki, Shekhawat K., Lal, A. (2024). Automated Generation of Floor Plans with Minimum Bends, Artificial Intelligence for Engineering Design, Analysis and Manufacturing (accepted).
  5. Raveena, Shekhawat, K., Shekhawat, R. (2024) A graph theoretic approach for generating T-shaped floor plans, Theoretical Computer Science, 1011: 1 – 29.
  6. Pinki, Shekhawat K., Goswami, D., Jain, U. (2024). Generation of Dimensioned Floor Plans for a given Boundary Layout, Soft Computing in Civil Engineering, 8(3): 1 – 10.
  7. Kumar, V., Shekhawat, K. (2024) On the characterization of rectangular duals, Notes on Number Theory and Discrete Mathematics, 30(1): 141 – 149. 
  8. Kumar, V., Shekhawat, K. (2024) Uniqueness of Rectangularly Dualizable Graphs, Communications in Combinatorics and Optimization, 9(1): 13 – 25. 
  9. Pinki, Shekhawat K. (2023). Linear-time construction of floor plans for plane triangulations, Communications in Combinatorics and Optimization, 8(4): 673 – 692.
  10. Kumar, V., Shekhawat, K. (2023)  Transformations among rectangular partitionsTransactions on Combinatorics 12(3): 142 – 163.
  11. Shekhawat K., Lohani R., Dasannacharya C., Bisht S., Rastogi S. (2023). Automated generation of floorplans with non-rectangular rooms, Graphical Models, 127: 1 – 23.
  12. Raveena, Shekhawat, K. (2023) A Theory of L-shaped Floor-plans, Theoretical Computer Science, 942: 57 – 92.
  13. Pinki, P., Shekhawat, K. (2023). An Algorithm for Customizing Slicing Floor Plan Design. Lecture Notes in Networks and Systems, 641: 25 – 35.
  14. Pinki, Shekhawat K. (2023). An annotated review on graph drawing and its applications, AKCE International Journal of Graph and Combinatorics, 20(3): 258 – 281
  15. Shiksha,  Shekhawat, K., Komdaveeti, A., Rastogi, S., Duarte J. (2023) Rectangular floorplans with block symmetry, CAADRIA 2023, 2: 391 – 400.
  16. Pinki, Shekhawat K. (2022). Characterization of Graphs Based on Number of Bends in Corresponding Floor plans. ACM International Conference Proceeding Series, 1 – 8.
  17. Bisht, S., Shekhawat, K., Upasani, N., Jain, RN., Tiwaskar, RJ.,  Hebbar, C. (2022) Transforming an Adjacency Graph into Dimensioned Floorplan Layouts, Computer Graphics Forum, 41(6): 5 – 22.
  18. Liu, J., Xue, Y., Duarte J.P., Shekhawat, K., Zhou, Z., Huang, X. (2022). End-to-end Graph constrained Vectorized Floorplan Generation with Panoptic Refinement, Lecture Notes in Computer Science, 13675: 547 – 562. 
  19. Shekhawat, K. (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.
  20. Shekhawat, K., Jain, RN., Bisht, S., Kondaveeti, A., Goswami, D. (2021) Graph-based Approach for Enumerating Floorplans Based on User Specifications, Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 35(4): 438 – 459.
  21. Shekhawat, K., Upasani, N., Bisht, S., Jain, RN. (2021) A Tool for Computer-Generated Dimensioned Floorplans based on given Adjacencies, Automation in Construction, 127: 1 – 21.
  22. Kumar, V., Shekhawat, K., (2021) A Transformation Algorithm to Construct a Rectangular Floorplan, Theoretical Computer Science, 871: 94 – 106.
  23. Shekhawat, K. (2021) A Graph Theoretic Approach for the Automated Generation of Dimensioned Floorplans. PROJECTIONS, Proceedings of the 26th International Conference of the Association for Computer-Aided Architectural Design Research in Asia (CAADRIA) 2021: 141 – 150.
  24. Kumar, V., Shekhawat, K., (2021) Rectangularly Dualizable Graphs: Area-Universality, Advances and Applications in Discrete Mathematics, 28(1): 75-91.
  25. Upasani, N., Shekhawat, K., Sachdeva, G. (2020) Automated generation of dimensioned rectangular floorplans, Automation in Construction, 113: 1 – 11.
  26. Shekhawat K., 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.
  27. Shekhawat K., Pinki, Duarte J.P. (2019). A Graph Theoretical Approach for Creating Building Floor Plans. Communications in Computer and Information Science, 1028: 3 – 14.
  28. Shekhawat, K., (2018). Enumerating generic rectangular floorplans, Automation in Construction, 92: 151 – 165.
  29. Shekhawat, K., Duarte, J.P. (2018). Introduction to generic rectangular floor plans, AIEDAM: Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 32(3): 331 – 350.
  30. Shekhawat, K. (2017). Mathematical propositions associated with the connectivity of architectural designs. Ain Shams Engineering Journa,l 8(4): 653 – 661.
  31. Shekhawat K. (2017). A computer-generated plus-shaped arrangement and its architectural     applications. Journal of Computational Design and Engineering, 4(4): 318 – 329.
  32. Shekhawat K., Duarte J.P. (2017). Rectilinear Floor Plans. Communications in Computer and Information Science, 724: 395 – 411.
  33. Shekhawat, K., Duarte, J.P. (2017). Automated Best Connected Rectangular Floorplans. In: Gero, J. (eds) Design Computing and Cognition '16.
  34. Shekhawat, K. (2016). Best connected rectangular arrangements. Alexandria Engineering Journal, 55: 445 – 449.
  35. Shekhawat, K. (2015). Computer-aided architectural designs and associated covariants. Journal of Building Engineerin,g 3: 127 – 134.
  36. Shekhawat, K. (2015). Why golden rectangle is used so often by architects: A mathematical approach. Alexandria Engineering Journal, 54: 213 – 222.
  37. Shekhawat, K. (2015). Automated space allocation using mathematical techniques. Ain Shams Engineering Journal, 6: 795 – 802. 
  38. Shekhawat, K. (2014). Algorithm for Constructing an Optimally Connected Rectangular Floor Plan. Frontiers of Architectural Research, 3: 324 – 330.

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