Analysis of input-to-state stability for discrete time nonlinear systems via dynamic programming

13 years 4 months ago

Download www.math.rutgers.edu

This paper presents novel analysis results for input-to-state stability (ISS) that utilise dynamic programming techniques to characterise minimal ISS gains and transient bounds. These characterisations naturally lead to computable necessary and sufficient conditions for ISS. Our results make a connection between ISS and optimisation problems in nonlinear dissipative systems theory (including L2-gain analysis and nonlinear H theory).

Shoudong Huang, Matthew R. James, Dragan Nesic, Pe

Real-time Traffic

AUTOMATICA 2005 | Dynamic Programming Techniques | Minimal Iss Gains | Nonlinear Dissipative Systems |

claim paper

» Stability and robustness analysis of nonlinear systems via contraction metrics and SOS pro...

» An elementary result in the stability theory of timeinvariant nonlinear discrete dynamical...

» Probabilistic reachability and safety for controlled discrete time stochastic hybrid syste...

» Advances in moving horizon estimation for nonlinear systems

» Fundamental performance limitations with KullbackLeibler control cost

Post Info
More Details (n/a)

Added	15 Dec 2010
Updated	15 Dec 2010
Type	Journal
Year	2005
Where	AUTOMATICA
Authors	Shoudong Huang, Matthew R. James, Dragan Nesic, Peter M. Dower

Comments (0)

Sciweavers

Analysis of input-to-state stability for discrete time nonlinear systems via dynamic programming

AUTOMATICA 2005 | Dynamic Programming Techniques | Minimal Iss Gains | Nonlinear Dissipative Systems |

Explore & Download

Productivity Tools

Document Tools

Image Tools

Sciweavers