# | Document title | Authors | Year | Source | Cited by |
1 | Control of Fuel Cell Breathing | Pukrushpan J.T., Stefanopoulou A.G., Peng H. | 2004 | IEEE Control Systems 24(2),pp. 30-46 | 514 |
2 | Control-oriented modeling and analysis for automotive fuel cell systems | Pukrushpan J., Peng H., Stefanopoulou A. | 2004 | Journal of Dynamic Systems, Measurement and Control, Transactions of the ASME 126(1),pp. 14-25 | 444 |
3 | Modeling and control for PEM fuel cell stack system | Pukrushpan J.T., Stefanopoulou A.G., Peng H. | 2002 | Proceedings of the American Control Conference 4,pp. 3117-3122 | 306 |
4 | Simulation and analysis of transient fuel cell system performance based on a dynamic reactant flow model | Pukrushpan J., Peng H., Stefanopoulou A. | 2002 | ASME International Mechanical Engineering Congress and Exposition, Proceedings ,pp. 637-648 | 161 |
5 | Model-based control strategies in the dynamic interaction of air supply and fuel cell | Grujicic M., Chittajallu K., Law E., Pukrushpan J. | 2004 | Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy 218(7),pp. 487-499 | 109 |
6 | Motion planning for a spherical mobile robot: Revisiting the classical ball-plate problem | Mukherjee R., Minor M., Pukrushpan J. | 2002 | Journal of Dynamic Systems, Measurement and Control, Transactions of the ASME 124(4),pp. 502-511 | 103 |
7 | Simple motion planning strategies for spherobot: a spherical mobile robot | Mukherjee R., Minor M., Pukrushpan J. | 1999 | Proceedings of the IEEE Conference on Decision and Control 3,pp. 2132-2137 | 96 |
8 | Dynamics of Low-Pressure and High-Pressure Fuel Cell Air Supply Systems | Gelfi S., Stefanopoulou A., Pukrushpan J., Peng H. | 2003 | Proceedings of the American Control Conference 3,pp. 2049-2054 | 68 |
9 | Control-oriented model of fuel processor for hydrogen generation in fuel cell applications | Pukrushpan J., Stefanopoulou A., Varigonda S., Eborn J., Haugstetter C. | 2006 | Control Engineering Practice 14(3 SPEC. ISS.),pp. 277-293 | 60 |
10 | Control of natural gas catalytic partial oxidation for hydrogen generation in fuel cell applications | Pukrushpan J., Stefanopoulou A., Varigonda S., Pedersen L., Ghosh S., Peng H. | 2005 | IEEE Transactions on Control Systems Technology 13(1),pp. 3-14 | 59 |
11 | Control of the transient behaviour of polymer electrolyte membrane fuel cell systems | Grujicic M., Chittajallu K., Pukrushpan J. | 2004 | Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 218(11),pp. 1239-1250 | 49 |
12 | Control of Natural Gas Catalytic Partial Oxidation for Hydrogen Generation in Fuel Cell Applications | Pukrushpan J., Stefanopoulou A., Varigonda S., Pedersen L., Ghosh S., Peng H. | 2003 | Proceedings of the American Control Conference 3,pp. 2030-2036 | 20 |
13 | Fuel cell APU for silent watch and mild electrification of a medium tactical truck | Filipi Z., Louca L., Stefanopoulou A., Pukrushpan J., Kittirungsi B., Peng H. | 2004 | SAE Technical Papers
| 17 |
14 | Class of rotations induced by spherical polygons | Mukherjee R., Pukrushpan J. | 2000 | Journal of Guidance, Control, and Dynamics 23(4),pp. 746-749 | 6 |
15 | A neural inverse control of a PEM-FC system by the generalized mapping regressor (GMR) | Marsala G., Bouquin D., Pukrushpan J., Pucci M., Cirrincione G., Vitale G., Miraoui A. | 2008 | Conference Record - IAS Annual Meeting (IEEE Industry Applications Society)
| 5 |
16 | The intensity of stress singularity in plastic region around a singular point in Bi-material joints | Wisessint A., Siangsanan W., Pukrushpan J.T. | 2019 | Materials Today: Proceedings 17,pp. 1500-1506 | 1 |
17 | Investigating and Analyzing the Potential for Regenerating Excess Energy in a Helicopter UAV | Kodchaniphaphong C., Pukrushpan J.T., Klumpol C. | 2023 | Drones 7(10) | 0 |