In this paper, we present a method for computing a basin of attraction to a target region for non-linear ordinary differential equations. This basin of attraction is ensured by a Lyapunov-like polynomial function that we compute using an interval based branch-and-relax algorithm. This algorithm relaxes the necessary conditions on the coefficients of the Lyapunov-like function to a system of linear interval inequalities that can then be solved exactly, and iteratively reduces the relaxation error by recursively decomposing the state space into hyper-rectangles. Tests on an implementation are promising
Numerical methods to determine the basin of attraction for autonomous equations focus on a bounded s...
A method of determining regions of attraction for a system with multiple nonlinearities is considere...
In this paper we present various theoretical and computational methods for estimating the domain of ...
In this paper, we present a method for computing a basin of attraction to a target region for non-li...
In this paper, we present a method for computing a basin of attrac-tion to a target region for non-l...
International audienceThe Lyapunov equation allows finding a quadratic Lyapunov function for an asym...
We study the basin of attraction of an asymptotically stable equilibrium of a general autonomous ord...
Abstract — The problem of computing bounds on the region-of-attraction for systems with polynomial v...
This paper proposes a strategy for estimating the domain of attraction (DA) for non-polynomial syste...
Abstract: We investigate linear programming relaxations to synthesize Lyapunov functions that es-tab...
We propose using (bilinear) sum-of-squares programming for obtaining inner bounds of regions-of-attr...
Lyapunov functions are an important tool to determine the basin of attraction of equilibria in Dynam...
The basin of attraction of an equilibrium of an ordinary differential equation can be determined usi...
Consider a discrete dynamical system given by the iteration x(n+1) = g(x(n)) with exponentially asym...
We address the problem of asymptotic stability and region-of-attraction analysis of nonlinear dynami...
Numerical methods to determine the basin of attraction for autonomous equations focus on a bounded s...
A method of determining regions of attraction for a system with multiple nonlinearities is considere...
In this paper we present various theoretical and computational methods for estimating the domain of ...
In this paper, we present a method for computing a basin of attraction to a target region for non-li...
In this paper, we present a method for computing a basin of attrac-tion to a target region for non-l...
International audienceThe Lyapunov equation allows finding a quadratic Lyapunov function for an asym...
We study the basin of attraction of an asymptotically stable equilibrium of a general autonomous ord...
Abstract — The problem of computing bounds on the region-of-attraction for systems with polynomial v...
This paper proposes a strategy for estimating the domain of attraction (DA) for non-polynomial syste...
Abstract: We investigate linear programming relaxations to synthesize Lyapunov functions that es-tab...
We propose using (bilinear) sum-of-squares programming for obtaining inner bounds of regions-of-attr...
Lyapunov functions are an important tool to determine the basin of attraction of equilibria in Dynam...
The basin of attraction of an equilibrium of an ordinary differential equation can be determined usi...
Consider a discrete dynamical system given by the iteration x(n+1) = g(x(n)) with exponentially asym...
We address the problem of asymptotic stability and region-of-attraction analysis of nonlinear dynami...
Numerical methods to determine the basin of attraction for autonomous equations focus on a bounded s...
A method of determining regions of attraction for a system with multiple nonlinearities is considere...
In this paper we present various theoretical and computational methods for estimating the domain of ...