A hybrid control methodology is presented for autonomous rendezvous, proximity operations and docking of a pair of spacecraft. For the theoretical development of the control algorithms, the dynamics of the spacecraft are modeled using the Clohessy-Wiltshire-Hill equations, which result in a linear system of relative motion equations. Only in-plane motion is considered, resulting in a two-dimensional system, and the control input is the acceleration vector of the active spacecraft, constrained by a maximum thrust value. Individual controllers are designed for different phases of the of approach and transitions are governed by a hybrid supervising algorithm. The hybrid control algorithm is implemented both in MATLAB, using a simplified dynami...
Autonomous rendezvous and proximity operations between a chaser spacecraft and a target space object...
A fundamental maneuver in autonomous space operations is known as rendezvous, where an active spacec...
In this article, we focus on safe and effective completion of a rendezvous and docking task by looki...
A hybrid control methodology is presented for autonomous rendezvous, proximity operations and dockin...
This thesis proposes a hybrid control strategy to solve the problem of rendezvous, proximity operati...
We consider the problem of rendezvous, proximity operations, and docking of an autonomous spacecraft...
In this paper we propose a hybrid control strategy to solve the problem of rendezvous, proximity ope...
Recent developments in the field of automation and control have motivated the use of new approaches ...
This paper deals with maneuver control for the autonomous docking of two small spacecraft in a rende...
This work presents a non-linear control strategy for the docking of two spacecraft in a leader-follo...
This study develops an integrated guidance, navigation and control system for use in autonomous prox...
International audienceWe focus on the problem of satellite rendezvous between two spacecraft in elli...
in partial fulfillment of the requirements for the degree of Master of Science. A cooperative autopi...
A novel two-phase hybrid controller is proposed to optimize propellant consumption during multiple s...
Abstract: Autonomous rendezvous and proximity operations between a chaser (or pursuer) spacecraft an...
Autonomous rendezvous and proximity operations between a chaser spacecraft and a target space object...
A fundamental maneuver in autonomous space operations is known as rendezvous, where an active spacec...
In this article, we focus on safe and effective completion of a rendezvous and docking task by looki...
A hybrid control methodology is presented for autonomous rendezvous, proximity operations and dockin...
This thesis proposes a hybrid control strategy to solve the problem of rendezvous, proximity operati...
We consider the problem of rendezvous, proximity operations, and docking of an autonomous spacecraft...
In this paper we propose a hybrid control strategy to solve the problem of rendezvous, proximity ope...
Recent developments in the field of automation and control have motivated the use of new approaches ...
This paper deals with maneuver control for the autonomous docking of two small spacecraft in a rende...
This work presents a non-linear control strategy for the docking of two spacecraft in a leader-follo...
This study develops an integrated guidance, navigation and control system for use in autonomous prox...
International audienceWe focus on the problem of satellite rendezvous between two spacecraft in elli...
in partial fulfillment of the requirements for the degree of Master of Science. A cooperative autopi...
A novel two-phase hybrid controller is proposed to optimize propellant consumption during multiple s...
Abstract: Autonomous rendezvous and proximity operations between a chaser (or pursuer) spacecraft an...
Autonomous rendezvous and proximity operations between a chaser spacecraft and a target space object...
A fundamental maneuver in autonomous space operations is known as rendezvous, where an active spacec...
In this article, we focus on safe and effective completion of a rendezvous and docking task by looki...