AUTHOR=Garg Kunal , Panagou Dimitra TITLE=Finite-Time Stability of Hybrid Systems With Unstable Modes JOURNAL=Frontiers in Control Engineering VOLUME=2 YEAR=2021 URL=https://www.frontiersin.org/journals/control-engineering/articles/10.3389/fcteg.2021.707729 DOI=10.3389/fcteg.2021.707729 ISSN=2673-6268 ABSTRACT=

In this work, we study finite-time stability of hybrid systems with unstable modes. We present sufficient conditions in terms of multiple Lyapunov functions for the origin of a class of hybrid systems to be finite-time stable. More specifically, we show that even if the value of the Lyapunov function increases during continuous flow, i.e., if the unstable modes in the system are active for some time, finite-time stability can be guaranteed if the finite-time convergent mode is active for a sufficient amount of cumulative time. This is the first work on finite-time stability of hybrid systems using multiple Lyapunov functions. Prior work uses a common Lyapunov function approach, and requires the Lyapunov function to be decreasing during the continuous flows and non-increasing at the discrete jumps, thereby, restricting the hybrid system to only have stable modes, or to only evolve along the stable modes. In contrast, we allow Lyapunov functions to increase both during the continuous flows and the discrete jumps. As thus, the derived stability results are less conservative compared to the earlier results in the related literature, and in effect allow the hybrid system to have unstable modes.