Add to ORKGThis paper proposes a general framework for analyzing continuous-Time systems controlled by event-Triggered algorithms. Closed-loop systems resulting from using both static and dynamic output (or state) feedback laws that are implemented via asynchronous event-Triggered techniques are modeled as hybrid systems given in terms of hybrid inclusions and studied using recently developed tools for robust stability. Properties of the proposed models, including stability of compact sets, robustness, and Zeno behavior of solutions are addressed. The framework and results are illustrated in several event-Triggered strategies available in the literature
Hybrid systems are dynamical systems where the state is allowed to both flow continuously and jump d...
International audienceIn this paper, the problem of feedback control implementation for nonlinear sy...
Abstract — This paper studies the event design in event-triggered feedback systems with asymptotic s...
International audienceEvent-triggered control consists of closing the feed-back loop whenever a pred...
International audienceFor continuous-time nonlinear control systems equipped with a static stabilizi...
A unifying design perspective is presented for emulation-based (dynamic) event-triggered state-feedb...
Many physical systems today are modeled by interacting continuous and discrete event systems. Such h...
This thesis deals with the use of logic-based switching in the control of imprecisely modeled nonlin...
In this paper we introduce a class of continuous-time hybrid dynamical systems called integral conti...
Wherever continuous and discrete dynamics interact, hybrid systems arise. This is especially the cas...
In this paper we introduce a class of continuous-time hybrid dynamical systems called integral conti...
International audienceHybrid systems are one of the most common mathematical models for Cyber-Physic...
International audienceWe first propose a nonsmooth hybrid invariance principle with relaxed conditio...
Hybrid control systems contain two distinct types of systems, continuous state and discrete-state, t...
The increasing proliferation of automatic control systems in embedded and distributed applications h...
Hybrid systems are dynamical systems where the state is allowed to both flow continuously and jump d...
International audienceIn this paper, the problem of feedback control implementation for nonlinear sy...
Abstract — This paper studies the event design in event-triggered feedback systems with asymptotic s...
International audienceEvent-triggered control consists of closing the feed-back loop whenever a pred...
International audienceFor continuous-time nonlinear control systems equipped with a static stabilizi...
A unifying design perspective is presented for emulation-based (dynamic) event-triggered state-feedb...
Many physical systems today are modeled by interacting continuous and discrete event systems. Such h...
This thesis deals with the use of logic-based switching in the control of imprecisely modeled nonlin...
In this paper we introduce a class of continuous-time hybrid dynamical systems called integral conti...
Wherever continuous and discrete dynamics interact, hybrid systems arise. This is especially the cas...
In this paper we introduce a class of continuous-time hybrid dynamical systems called integral conti...
International audienceHybrid systems are one of the most common mathematical models for Cyber-Physic...
International audienceWe first propose a nonsmooth hybrid invariance principle with relaxed conditio...
Hybrid control systems contain two distinct types of systems, continuous state and discrete-state, t...
The increasing proliferation of automatic control systems in embedded and distributed applications h...
Hybrid systems are dynamical systems where the state is allowed to both flow continuously and jump d...
International audienceIn this paper, the problem of feedback control implementation for nonlinear sy...
Abstract — This paper studies the event design in event-triggered feedback systems with asymptotic s...