Integral input-to-state stability of interconnected iISS systems by means of a lower-dimensional comparison system
conference contribution
posted on 2025-05-11, 22:46 authored by Björn S. Rüffer, Christopher KellettChristopher Kellett, Steven WellerSteven WellerWe consider arbitrarily many interconnected integral Input-to-State Stable (iISS) systems in an arbitrary interconnection topology and provide an (i)ISS comparison principle for networks. We show that global asymptotic stability of the origin (GAS) of a lower-dimensional system termed the comparison system, which is based on the individual dissipative Lyapunov iISS inequalities, together with a scaling condition implies the existence of an iISS Lyapunov function of the composite system. A sufficient (but not necessary) condition for 0-GAS of the interconnection is shown in this paper to be the generalized small-gain condition derived by Dashkovskiy et al., but this time in a dissipative Lyapunov setting. We also provide geometric intuition behind growth rate conditions for the stability of cascaded iISS systems.
History
Source title
Proceedings of the 48th IEEE Conference on Decision and Control 2009, held jointly with the 28th Chinese Control Conference 2009, CDC/CCC 2009Name of conference
48th IEEE Conference on Decision and Control, 2009 held jointly with the 28th Chinese Control Conference, 2009 (CDC/CCC 2009)Location
Shanghai, ChinaStart date
2009-12-15End date
2009-12-18Pagination
638-643Publisher
Institute of Electrical and Electronics Engineers (IEEE)Place published
Piscataway, NJLanguage
- en, English
