We present a methodology for robust stability analysis of nonlinear hybrid systems, through the algorithmic construction of polynomial and piecewise polynomial Lyapunov-like functions using convex optimization and in particular the sum of squares decomposition of multivariate polynomials. Several improvements compared to previous approaches are discussed, such as treating in a unified way polynomial switching surfaces and robust stability analysis for nonlinear hybrid systems
This paper presents a new sum-of-squares (SOS, for brevity) design framework for robust control of p...
This paper provides robust stability conditions for continuous and discrete time polytopic systems. ...
Improved linear matrix inequality conditions are given to test if the zeros of all polynomial matric...
We present a methodology for robust stability analysis of nonlinear hybrid systems, through the algo...
We present a methodology for robust stability analysis of nonlinear hybrid systems, through the algo...
This paper presents a method for stability analysis of switched and hybrid systems using polynomial ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
A stability criterion for nonlinear systems, recently derived by the third author, can be viewed as ...
For autonomous nonlinear systems stability and input-output properties in small enough (infinitesima...
We propose a computational method for local robust performance analysis of nonlinear systems with po...
Sufficient conditions for checking the robust stability of a polytope of polynomial matrices are pro...
This paper presents a method for stability analysis of switched and hybrid systems using polynomial ...
This paper is concerned with the high-performance robust control of discrete-time linear time-invari...
228 p.This thesis studies the nonlinear robust control problems for continuous time parameter-depend...
Abstract — This paper gives a sufficient condition for a robust control problem in terms of minimax ...
This paper presents a new sum-of-squares (SOS, for brevity) design framework for robust control of p...
This paper provides robust stability conditions for continuous and discrete time polytopic systems. ...
Improved linear matrix inequality conditions are given to test if the zeros of all polynomial matric...
We present a methodology for robust stability analysis of nonlinear hybrid systems, through the algo...
We present a methodology for robust stability analysis of nonlinear hybrid systems, through the algo...
This paper presents a method for stability analysis of switched and hybrid systems using polynomial ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
A stability criterion for nonlinear systems, recently derived by the third author, can be viewed as ...
For autonomous nonlinear systems stability and input-output properties in small enough (infinitesima...
We propose a computational method for local robust performance analysis of nonlinear systems with po...
Sufficient conditions for checking the robust stability of a polytope of polynomial matrices are pro...
This paper presents a method for stability analysis of switched and hybrid systems using polynomial ...
This paper is concerned with the high-performance robust control of discrete-time linear time-invari...
228 p.This thesis studies the nonlinear robust control problems for continuous time parameter-depend...
Abstract — This paper gives a sufficient condition for a robust control problem in terms of minimax ...
This paper presents a new sum-of-squares (SOS, for brevity) design framework for robust control of p...
This paper provides robust stability conditions for continuous and discrete time polytopic systems. ...
Improved linear matrix inequality conditions are given to test if the zeros of all polynomial matric...