Bisimulations for Reasoning about Input-to-State Stability Properties of Hybrid Systems
Pavithra Prabhakar, Jun Liu and Richard M. Murray
Submitted, 2012 Conference on Decision and Control (CDC)
In this paper, we investigate pre-orders for reason- ing about input-to-state stability properties of hybrid systems. We define the notions of uniformly continuous input simulations and bisimulations, which extend the notions in previous work to include inputs. We show that uniformly continuous input bisimulations preserve incremental input-to-state stability of hybrid systems, and thus provide a basis for constructing abstractions for verification. We show that Lyapunov function based input-to-state stability analysis can be cast in our frame- work as constructing a simpler one-dimensional system, using a uniformly continuous input simulation, which is input-to-state stable, and thus, inferring the input-to-state stability of the original system.
- Conference Paper: http://www.cds.caltech.edu/~murray/preprints/plm12-cdc_s.pdf
- Project(s): Template:HTDB funding::CMI