We analyze stochastic differential equations and their discretizations to derive novel high probability tracking bounds for exponentially stable time varying systems which are corrupted by process noise. The bounds have an explicit dependence on the rate of convergence for the unperturbed system and the dimension of the state space. The magnitude of the stochastic deviations have a simple intuitive form, and our perturbation bounds also allow us to derive tighter high probability bounds on the tracking of reference trajectories than the state of the art. The resulting bounds can be used in analyzing many tracking control schemes
The aim of this talk is the analysis of various stability issues for numerical methods designed to s...
In this paper, we consider nonlinear stochastic systems and intersect ideas from nonlinear control t...
This thesis deals with the filtering and control of nonlinear systems described by Itô stochastic di...
We study stochastic perturbations of a dynamical system with a locally stable fixed point. The pertu...
This paper considers the stochastic stabilization and destabilization for uncertain nonlin...
We deal with nonlinear dynamical systems, consisting of a linear nominal part perturbed by model unc...
International audienceMotivated by studies of indirect measurements in quantum mechanics, we investi...
We develop the stability theory for two classes of dynamic equations evolving on a time domain that ...
This dissertation is devoted to formulation and analysis in the notion of the first passage time of ...
Abstract. This paper considers the rate of growth of the almost sure partial maxima of the solutions...
In this dissertation, we present our work on automating discovery of governing equations for stochas...
Three types of quantitative structures, stochastic inertial manifolds, random invariant foliations, ...
We consider N independent stochastic processes (Xi(t), t ∈ [0, T ]), i = 1,. .. , N , dened by a one...
The problem of finite-horizon H∞ tracking for linear time-varying systems with stochastic parameter ...
The stability of stochastic Model Predictive Control (MPC) subject to additive disturbances is often...
The aim of this talk is the analysis of various stability issues for numerical methods designed to s...
In this paper, we consider nonlinear stochastic systems and intersect ideas from nonlinear control t...
This thesis deals with the filtering and control of nonlinear systems described by Itô stochastic di...
We study stochastic perturbations of a dynamical system with a locally stable fixed point. The pertu...
This paper considers the stochastic stabilization and destabilization for uncertain nonlin...
We deal with nonlinear dynamical systems, consisting of a linear nominal part perturbed by model unc...
International audienceMotivated by studies of indirect measurements in quantum mechanics, we investi...
We develop the stability theory for two classes of dynamic equations evolving on a time domain that ...
This dissertation is devoted to formulation and analysis in the notion of the first passage time of ...
Abstract. This paper considers the rate of growth of the almost sure partial maxima of the solutions...
In this dissertation, we present our work on automating discovery of governing equations for stochas...
Three types of quantitative structures, stochastic inertial manifolds, random invariant foliations, ...
We consider N independent stochastic processes (Xi(t), t ∈ [0, T ]), i = 1,. .. , N , dened by a one...
The problem of finite-horizon H∞ tracking for linear time-varying systems with stochastic parameter ...
The stability of stochastic Model Predictive Control (MPC) subject to additive disturbances is often...
The aim of this talk is the analysis of various stability issues for numerical methods designed to s...
In this paper, we consider nonlinear stochastic systems and intersect ideas from nonlinear control t...
This thesis deals with the filtering and control of nonlinear systems described by Itô stochastic di...