Abstract

This work addresses the finite-time stabilization problem via state-feedback control for discrete-time cyber-physical systems under the presence of DoS attacks and external disturbance. The cyber-physical system is described as a switched system and a design condition in the form of Linear Matrix inequality is proposed. The condition ensures the finite-time boundedness for the closed-loop cyber-physical system via state-feedback control. Numerical experiments illustrate the performance of the proposed method.