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Resilient adaptive control of switched nonlinear cyber-physical systems under uncertain deception attacks. (English) Zbl 1478.93323

Summary: This paper addresses the problem of resilient adaptive dynamic surface control against uncertain sensor and actuator deception attacks for a class of switched nonlinear cyber-physical systems. The concerned system dynamics suffer from both unknown switching mechanisms and more general nonlinearities. Furthermore, it is our aim to deal with deception attacks as adversaries can corrupt sensor and control data, resulting the conventional error surfaces inaccessible for feedback control design. To this end, we construct sensor attack compensators to mitigate the effects caused by the sensor attacks. In addition, neural networks are utilized to approximate the nonlinear terms and compensate the state-dependent actuator attacks. Then, we construct a common Lyapunov function and propose a dynamic surface-based resilient adaptive strategy, under which the equilibrium point of the resulted closed-loop system is semi-globally uniformly ultimately bounded under arbitrary switchings. Finally, we provide a continuously stirred tank reactor system under uncertain deception attacks to validate the effectiveness of the proposed control method.

MSC:

93C40 Adaptive control/observation systems
93C30 Control/observation systems governed by functional relations other than differential equations (such as hybrid and switching systems)
93C10 Nonlinear systems in control theory
93B70 Networked control
93C83 Control/observation systems involving computers (process control, etc.)
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