Srimanta Santra

Learn More
This article addresses the admissibility analysis and state-feedback robust control synthesis problem for a class of uncertain descriptor systems with time delays and Markovian jumping parameters. In particular, the delay factor is assumed to be time varying which belongs to a given interval and parameter uncertainties are assumed to be time-varying but(More)
This brief investigates the problem of passivity-based resilient sampled-data control for Markovian jump systems subject to actuator faults via an adaptive fault-tolerant mechanism. By constructing a proper Lyapunov function, a set of sufficient conditions is obtained in terms of linear matrix inequalities (LMIs), which ensures that the closed-loop system(More)
In this paper, the robust reliable H∞ control problem has been investigated for a class of nonlinear discrete-time TS fuzzy systems with random delay. In particular, the proposed fuzzy system consists of local nonlinear models with set of fuzzy rules, but the conventional TS fuzzy systems has local linear models. Our attention is focused on the design of a(More)
This paper focuses on the dissipative reliable sampled-data control for a class of linear uncertain systems against actuator failures. The main purpose is to design a state feedback reliable dissipative control law such that the resulting closed-loop uncertain system is strictly (Q,R,S)− θ dissipative for all admissible actuator failures with a certain(More)
Observer-based dissipative control for Markovian jump systems via delta operators R. Sakthivel, M. Rathika, Srimanta Santra & M. Muslim To cite this article: R. Sakthivel, M. Rathika, Srimanta Santra & M. Muslim (2016): Observerbased dissipative control for Markovian jump systems via delta operators, International Journal of Systems Science, DOI:(More)
This paper addresses the problem of robust L2−L∞ control in delta domain for a class of Takagi–Sugeno (TS) fuzzy systems with interval time-varying delays and disturbance input. In particular, the system under study involves state time delay, uncertainties and fast sampling period T . The main aim of this work was to design a L2−L∞ controller such that the(More)
  • 1