The development of feedback control systems for autonomous orbital rendezvous is a key technological challenge for next-generation space missions. This paper presents a new class of control laws for the orbital rendezvous problem. The controllers belonging to this class are guaranteed to globally asymptotically stabilize the relative dynamics of two satellites in circular or elliptic orbits. The proposed design procedure builds on control techniques for nonlinear systems in cascade form, by exploiting the geometric properties of the orbital element description of the satellite motion. A numerical simulation of a formation flying mission demonstrates the effectiveness of this approach for long-range and low-thrust rendezvous operations
We study the problem of orbital control under the constraints on the thrust direction for a nonlinea...
This dissertation studies formation flight in the unstable environment about the Earth-Sun halo orbi...
International audienceWe focus on the problem of satellite rendezvous between two spacecraft in elli...
The development of feedback control systems for autonomous orbital rendezvous is a key technological...
This thesis addresses the minimum-time rendezvous optimal control problem by implementing continuati...
In this paper, we develop a nonlinear Lyapunov-based control law and a novel mean-motion control str...
In this paper, we consider a linear quadratic regulator control problem for spacecraft rendezvous in...
This paper handles with an energy optimal guidance law for rendezvous mission, based on linear quadr...
This dissertation presents a method to address exact feedback linearization problems based on the re...
The growing level of autonomy of unmanned space missions has attracted a significant amount of resea...
Abstract: This work addresses a nonlinear Lyapunov-like feedback control to establish and ...
AbstractThe primary objective of this work is to develop an effective spacecraft orbit control algor...
The primary objective of this work is to develop an effective spacecraft orbit control algorithm sui...
This work presents a non-linear control strategy for the docking of two spacecraft in a leader-follo...
An innovative dynamics and control algorithm is developed for a dual-nanosatellite formation flying ...
We study the problem of orbital control under the constraints on the thrust direction for a nonlinea...
This dissertation studies formation flight in the unstable environment about the Earth-Sun halo orbi...
International audienceWe focus on the problem of satellite rendezvous between two spacecraft in elli...
The development of feedback control systems for autonomous orbital rendezvous is a key technological...
This thesis addresses the minimum-time rendezvous optimal control problem by implementing continuati...
In this paper, we develop a nonlinear Lyapunov-based control law and a novel mean-motion control str...
In this paper, we consider a linear quadratic regulator control problem for spacecraft rendezvous in...
This paper handles with an energy optimal guidance law for rendezvous mission, based on linear quadr...
This dissertation presents a method to address exact feedback linearization problems based on the re...
The growing level of autonomy of unmanned space missions has attracted a significant amount of resea...
Abstract: This work addresses a nonlinear Lyapunov-like feedback control to establish and ...
AbstractThe primary objective of this work is to develop an effective spacecraft orbit control algor...
The primary objective of this work is to develop an effective spacecraft orbit control algorithm sui...
This work presents a non-linear control strategy for the docking of two spacecraft in a leader-follo...
An innovative dynamics and control algorithm is developed for a dual-nanosatellite formation flying ...
We study the problem of orbital control under the constraints on the thrust direction for a nonlinea...
This dissertation studies formation flight in the unstable environment about the Earth-Sun halo orbi...
International audienceWe focus on the problem of satellite rendezvous between two spacecraft in elli...