Saroj K. Biswas
Affiliations: | Electrical Engineering | Temple University, Philadelphia, PA, United States |
Area:
Operations Research, Electronics and Electrical EngineeringGoogle:
"Saroj Biswas"
BETA: Related publications
See more...
Publications
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
Ferrese F, Dong Q, Nataraj N, et al. (2011) Optimal feedback control of power systems using eigenstructure assignment and particle swarm optimization Naval Engineers Journal. 123: 67-75 |
Dong Q, Biswas S. (2010) Nonlinear Feedback Control of a Dual‐Cable Ropeway System Naval Engineers Journal. 122: 21-27 |
Won CH, Biswas S. (2007) Optimal control using an algebraic method for control-affine non-linear systems International Journal of Control. 80: 1491-1502 |
Subrahmanyam MB, Biswas SK. (1999) Model Reduction with a Finite Horizon H∞ Criterion Journal of Guidance, Control, and Dynamics. 22: 251-257 |
Biswas SK. (1998) Robust stabilization of linear systems in the presence of Gaussian perturbation of parameters Optimal Control Applications and Methods. 19: 271-286 |
Kasangaki VBA, Sendaula HM, Biswas SK. (1997) Stochastic Hopfield artificial neural network for unit commitment and economic power dispatch Electric Power Systems Research. 42: 215-223 |
Kasangaki VBA, Sendaula HM, Biswas SK. (1995) Stochastic Hopfield artificial neural network for electric power production costing Ieee Transactions On Power Systems. 10: 1525-1533 |
Biswas SK, Ahmed NU. (1995) Disturbance rejecting optimal regulation of hyperbolic systems Mathematics of Control, Signals, and Systems. 8: 241-256 |
Biswas SK, Ahmed NU. (1989) Optimal control of large space structures governed by a coupled system of ordinary and partial differential equations Mathematics of Control, Signals, and Systems. 2: 1-18 |
Ahmed NU, Biswas SK. (1988) Mathematical modeling and control of large space structures with multiple appendages Mathematical and Computer Modelling. 10: 891-900 |