This work presents an event-triggered model predictive controller for spacecraft hovering phases. The target is assumed to be inert on its an elliptic orbit whereas the chaser has impulsive thrusters. The main goal is to design a local controller based on event-triggering principle to maintain the spacecraft inside a given hovering region while minimizing fuel consumption and avoiding unnecessary small amplitude firings. Using hybrid impulsive systems theory and reachability analysis, the invariance of the proposed method is studied. Simulation results are shown and discussed
IFAC Workshop on Advanced Control and Navigation for Autonomous Aerospace Vehicles. 08/06/2015. Sevi...
Hybrid dynamical systems are dynamical systems in which continuous and discrete evolutions coexist a...
This paper presents the design and implementation of a model predictive control (MPC) system to guid...
International audienceThis work presents an event-triggered model predictive controller for spacecra...
This work presents an event-triggered controller for spacecraft rendezvous hovering phases. The goal...
International audienceThis work presents an event-triggered controller for spacecraft rendezvous hov...
International audienceThis paper presents a model predictive control strategy for the hovering phase...
International audienceIn the context of space rendezvous hovering phase, a event-triggered predictiv...
International audienceThe present article proposes a predictive control law for orbital rendezvous h...
In this manuscript, an impulsive zone MPC formulationis proposed to tackle the problem of the spacec...
Autonomy is one of the major concerns during the planning of a space mission, whether its objective ...
International audienceWe focus on the problem of satellite rendezvous between two spacecraft in elli...
International audienceThe present article proposes a predictive control law for orbital spacecraft r...
IFAC Workshop on Advanced Control and Navigation for Autonomous Aerospace Vehicles. 08/06/2015. Sevi...
Hybrid dynamical systems are dynamical systems in which continuous and discrete evolutions coexist a...
This paper presents the design and implementation of a model predictive control (MPC) system to guid...
International audienceThis work presents an event-triggered model predictive controller for spacecra...
This work presents an event-triggered controller for spacecraft rendezvous hovering phases. The goal...
International audienceThis work presents an event-triggered controller for spacecraft rendezvous hov...
International audienceThis paper presents a model predictive control strategy for the hovering phase...
International audienceIn the context of space rendezvous hovering phase, a event-triggered predictiv...
International audienceThe present article proposes a predictive control law for orbital rendezvous h...
In this manuscript, an impulsive zone MPC formulationis proposed to tackle the problem of the spacec...
Autonomy is one of the major concerns during the planning of a space mission, whether its objective ...
International audienceWe focus on the problem of satellite rendezvous between two spacecraft in elli...
International audienceThe present article proposes a predictive control law for orbital spacecraft r...
IFAC Workshop on Advanced Control and Navigation for Autonomous Aerospace Vehicles. 08/06/2015. Sevi...
Hybrid dynamical systems are dynamical systems in which continuous and discrete evolutions coexist a...
This paper presents the design and implementation of a model predictive control (MPC) system to guid...