Follow
Avijit Banerjee
Avijit Banerjee
Researcher at Luleň Technical University
Verified email at iisc.ac.in
Title
Cited by
Cited by
Year
Multi-phase MPSP guidance for lunar soft landing
A Banerjee, R Padhi
Transactions of the Indian National Academy of Engineering 5, 61-74, 2020
142020
Optimal guidance for accurate lunar soft landing with minimum fuel consumption using model predictive static programming
A Banerjee, R Padhi, V Vatsal
2015 American Control Conference (ACC), 1861-1866, 2015
142015
A decentralized sensor fusion scheme for multi sensorial fault resilient pose estimation
M Mukherjee, A Banerjee, A Papadimitriou, SS Mansouri, ...
Sensors 21 (24), 8259, 2021
122021
Design and model predictive control of a Mars coaxial quadrotor
A Patel, A Banerjee, B Lindqvist, C Kanellakis, G Nikolakopoulos
2022 IEEE Aerospace Conference (AERO), 1-11, 2022
112022
On the design, modeling and experimental verification of a floating satellite platform
A Banerjee, SG Satpute, C Kanellakis, I Tevetzidis, J Haluska, P Bodin, ...
IEEE Robotics and Automation Letters 7 (2), 1364-1371, 2022
112022
Electrical Engineering Department, Jadavpur University, Kolkata-700 032, India
S Mondal, S Sadhu, A Banerjee
Control, Automation, Robotics and Embedded Systems (CARE), 2013á…, 2013
10*2013
Slider: On the design and modeling of a 2D floating satellite platform
A Banerjee, J Haluska, SG Satpute, D Kominiak, G Nikolakopoulos
arXiv preprint arXiv:2101.06335, 2021
82021
An optimal explicit guidance algorithm for terminal descent phase of lunar soft landing
A Banerjee, R Padhi
AIAA Guidance, Navigation, and Control Conference, 1266, 2017
72017
Estimation of unknown input using reduced order Das and Ghosal observer
GD A.Banerjee
Emerging Trends in Computing, Communication and Nanotechnology (ICE-CCNá…, 2013
72013
Inverse polynomial based explicit guidance for lunar soft landing during powered braking
A Banerjee, R Padhi
2015 IEEE Conference on Control Applications (CCA), 768-773, 2015
62015
Construction of full order observer for linear time invariant systems using generalized matrix inverse
A Banerjee, PP Mondal, G Das
2013 IEEE Conference on Information & Communication Technologies, 277-280, 2013
62013
Comparison between construction methods of unknown input reduced order observer using projection operator approach and generalized matrix inverse
GD Avijit Banerjee
Proceedings of International conference on Electrical, Electronicsá…, 2012
6*2012
Construction of unknown input reduced order observer using generalized matrix inverse and application to missile autopilot
A Banerjee, P Bhowmick, G Das
International Journal of Engineering Research and Development 4 (2), 15-18, 2012
52012
Adaptive control for a payload carrying spacecraft with state constraints
VN Sankaranarayanan, A Banerjee, S Satpute, S Roy, G Nikolakopoulos
Control Engineering Practice 135, 105515, 2023
42023
Nonlinear guidance and autopilot design for lunar soft landing
A Banerjee, R Padhi
2018 AIAA Guidance, Navigation, and Control Conference, 1872, 2018
32018
Flexible Multi-DoF Aerial 3D Printing Supported with Automated Optimal Chunking
MN Stamatopoulos, A Banerjee, G Nikolakopoulos
2023 IEEE/RSJ International Conference on Intelligent Robots and Systemsá…, 2023
22023
Resiliency in Space Autonomy: a Review
A Banerjee, M Mukherjee, S Satpute, G Nikolakopoulos
Current Robotics Reports 4 (1), 1-12, 2023
22023
Exogenous disturbance estimation for autonomous navigation around small celestial bodies
VK Viswanathan, A Papadimitriou, A Banerjee, SS Mansouri, ...
2022 IEEE 61st conference on decision and control (CDC), 3760-3766, 2022
22022
A resilient to faults auto-encoder enabled kalman based multi-sensorial fusion
M Mukherjee, A Banerjee, G Nikolakopoulos
2022 30th Mediterranean Conference on Control and Automation (MED), 662-669, 2022
22022
Nonlinear model predictive control based cooperative stereo-visual coverage of an asteroid
VK Viswanathan, S Satpute, A Banerjee, G Nikolakopoulos
2022 American control conference (ACC), 5360-5367, 2022
22022
The system can't perform the operation now. Try again later.
Articles 1–20