ePrints@IIScePrints@IISc Home | About | Browse | Latest Additions | Advanced Search | Contact | Help

Browse by Author

Up a level
Export as [feed] Atom [feed] RSS 1.0 [feed] RSS 2.0
Group by: Item Type | No Grouping
Number of items: 26.

Conference Proceedings

Kundu, A (2021) Scheduling networked control systems under limited communication capacity. In: 2021 60th IEEE Conference on Decision and Control (CDC), 13-17 Dec 2021, Austin, TX, USA, pp. 6946-6951.

Conference Paper

Kundu, A and Prabhakar, P (2022) Learning event-driven switched linear systems. In: 2021 7th Indian Control Conference, ICC 2021 - Proceedings, 20 - 22 December 2021, Virtual, Online, pp. 442-447.

Kundu, A (2021) Learning restrictions on admissible switching signals for switched systems. In: 2021 60th IEEE Conference on Decision and Control (CDC), 14-17 Dec. 2021, Austin, TX, USA, pp. 2468-2473.

Kundu, A (2021) Stabilizing switched systems under a class of restricted switching signals. In: 60th IEEE Conference on Decision and Control, CDC 2021, 13-17 Dec 2021, Austin, TX, USA, pp. 3210-3215.

Kundu, A (2021) Yet another matrix commutator condition for stabilizability of discrete-time switched linear systems. In: 1 July 2021 7th IFAC Conference on Analysis and Design of Hybrid Systems, ADHS 2021, 7-9 Jul 2021, Brussels, pp. 145-150.

Haque, I and D√ĘSouza, D and Habeeb, P and Kundu, A and Babu, G (2020) Verification of a Generative Separation Kernel. In: 18th International Symposium on Automated Technology for Verification and Analysis, ATVA 2020, 19-23 October 2020, Hanoi; Viet Nam, pp. 305-322.

Kundu, A (2019) Asymptotic characterization of destabilizing switching signals for switched linear systems. In: 2019 6th Indian Control Conference (ICC) 2019, 18-20 Dec. 2019, Hyderabad, India, India, pp. 40-45.

Kundu, A (2019) Robustly stabilizing switching signals for switched systems under restricted switching. In: 18th European Control Conference, ECC 2019, 25 June 2019 - 28 June 2019, Naples, pp. 1275-1280.

Kundu, A and Soto, MG and Prabhakar, P (2019) Formal Synthesis of Stabilizing Controllers for Periodically Controlled Linear Switched Systems. In: 5th Indian Control Conference, ICC 2019, 9 January 2019 - 11 January 2019, Delhi, pp. 484-489.

Kundu, A (2019) Input/output-to-state stability of discrete-time switched nonlinear systems under restricted switching. In: 5th Indian Control Conference, ICC 2019, 9 January 2019 - 11 January 2019, Delhi, pp. 495-499.

Nayak, A and Kundu, A (2019) Stabilizing switching signals for discrete-time switched linear systems: A unifying framework. In: 5th Indian Control Conference, ICC 2019, 9 January 2019 - 11 January 2019, Delhi, pp. 490-494.

Kundu, A (2018) Stabilizing switched nonlinear systems under restricted switching. In: 21st International Conference on Hybrid Systems: Computation and Control, HSCC 2018, 11 - 13 April 2018, Porto, pp. 101-110.

Journal Article

Das, S and Garg, SK and Krishnan, C and Kundu, A (2024) What is the Simplest Linear Ramp? In: Journal of High Energy Physics, 2024 (1).

Das, S and Garg, SK and Krishnan, C and Kundu, A (2023) Fuzzballs and random matrices. In: Journal of High Energy Physics, 2023 (10).

Das, S and Krishnan, C and Kumar, AP and Kundu, A (2023) Synthetic fuzzballs: a linear ramp from black hole normal modes. In: Journal of High Energy Physics, 2023 (1).

Trivedi, A and Gupta, S and Agarwalla, BK and Dhar, A and Kulkarni, M and Kundu, A and Sabhapandit, S (2023) Filling an empty lattice by local injection of quantum particles. In: Physical Review A, 108 (5).

Kundu, A (2022) On Stabilizability of Switched Linear Systems Under Restricted Switching. In: IEEE Transactions on Automatic Control, 67 (4). pp. 2060-2067.

Ganguly, K and Sengupta, D and Sarkar, N and Mukherjee, N and Dutta, T and Saha, A and Saha, T and Ghosh, B and Chatterjee, S and Brahmachari, P and Kundu, A and Sengupta, M (2022) Comprehensive in Silico Analyses of Single Nucleotide Variants of the Human Orthologues of 171 Murine Loci to Seek Novel Insights into the Genetics of Human Pigmentation. In: Proceedings of the Zoological Society .

Kundu, A (2021) A randomized algorithm for the stabilization of switched nonlinear systems under restricted switching. In: 2021 European Control Conference, ECC 2021 . pp. 1162-1167.

Kundu, A and Chatterjee, D (2020) Robust matrix commutator conditions for stability of switched linear systems under restricted switching. In: Automatica, 115 .

Kundu, A and Quevedo, DE (2020) Stabilizing Scheduling Policies for Networked Control Systems. In: IEEE Transactions on Control of Network Systems, 7 (1). pp. 163-175.

Balachandran, N and Kundu, A and Chatterjee, D (2019) Randomized algorithms for stabilizing switching signals. In: Mathematical Control and Related Fields, 9 (1). pp. 159-174.

Heemels, W P M H and Kundu, A and Daafouz, J (2017) On Lyapunov-Metzler Inequalities and S-Procedure Characterizations for the Stabilization of Switched Linear Systems. In: IEEE TRANSACTIONS ON AUTOMATIC CONTROL, 62 (9). pp. 4593-4597.

Saha, JP and Misra, B and Kundu, A (2010) Constraining scalar leptoquarks from the K and B sectors. In: Physical Review D - Particles, Fields, Gravitation and Cosmology, 81 (9).

Dighe, Amol and Kundu, Anirban and Agashe, K and Anantanarayan, B and Chandra, A and Datta, A and Das, PK and Das, SP and Dighe, A and Forty, R and Ghosh, DK and Keum, YY and Kundu, A and Mahajan, N and Majhi, S and Mazumdar, K and Mehta, P and Nir, Y and Saha, JP and Singh, R and Sinha, N and Sinha, R and Soni, A and Sankar, Uma S and Vaidya, R (2004) Working group report: Low energy and flavour physics. In: Pramana-Journal of Physics, 63 (6). pp. 1359-1365.

Datta, Ayan and Mukhopadhyaya, B and Raychaudhuri, S and Agashe, K and Aleksan, R and Bhattacharya, Gour and Boudjema, F and Chakrabarti, S and Datta, Anindya and Datta, Asesh Krishna and Deshpande, NG and Dighe, A and Drees, M and Ghoshal, A and Ghosh, D and Kundu, A and Roy, DP (1998) B physics and collider physics: Working group report. In: Pramana Journal of Physics, 51 (1-2). pp. 287-295.

This list was generated on Sat Jun 15 10:23:04 2024 IST.