The growing level of autonomy of unmanned space missions has attracted a significant amount of research in the aerospace field towards feedback orbit control. Existing Lyapunov-based controllers can be used to to transfer a spacecraft between two elliptic orbits of given size and orientation, but do not consider the stabilization of the spacecraft phase angle along the orbit, which is a key requirement for application to formation flying missions. This paper presents a control law based on the orbital element parametrization, which is able to track a given true longitude (i.e. a reference phase angle), in addition to the parameters describing the reference orbit shape and orientation. A numerical simulation of an orbital rendezvous demonstr...
Precision Formation Flying is an enabling technology for a variety of proposed space-based observato...
An innovative dynamics and control algorithm is developed for a dual-nanosatellite formation flying ...
This work presents a non-linear control strategy for the docking of two spacecraft in a leader-follo...
The growing level of autonomy of unmanned space missions has attracted a significant amount of resea...
In this paper, we develop a nonlinear Lyapunov-based control law and a novel mean-motion control str...
The development of feedback control systems for autonomous orbital rendezvous is a key technological...
Abstract: This work addresses a nonlinear Lyapunov-like feedback control to establish and ...
This paper analyzes the problem of precise autonomous orbit control of a spacecraft in a low Earth o...
This paper analyzes the problem of precise autonomous orbit control of a spacecraft in a low Earth o...
This paper proposes the application of a nonlinear control technique for coupled orbital and attitud...
We study the problem of orbital control under the constraints on the thrust direction for a nonlinea...
peer reviewedThe control of the relative distance between the satellites in a formation is investiga...
For a typical satellite constellation design problem, sometimes there are two conflicting goals. On ...
peer reviewedThis paper provides a new, exact controller for formation-keeping in the presence of at...
The authors present an orbital guidance scheme for the satellite with an electrical propulsion syste...
Precision Formation Flying is an enabling technology for a variety of proposed space-based observato...
An innovative dynamics and control algorithm is developed for a dual-nanosatellite formation flying ...
This work presents a non-linear control strategy for the docking of two spacecraft in a leader-follo...
The growing level of autonomy of unmanned space missions has attracted a significant amount of resea...
In this paper, we develop a nonlinear Lyapunov-based control law and a novel mean-motion control str...
The development of feedback control systems for autonomous orbital rendezvous is a key technological...
Abstract: This work addresses a nonlinear Lyapunov-like feedback control to establish and ...
This paper analyzes the problem of precise autonomous orbit control of a spacecraft in a low Earth o...
This paper analyzes the problem of precise autonomous orbit control of a spacecraft in a low Earth o...
This paper proposes the application of a nonlinear control technique for coupled orbital and attitud...
We study the problem of orbital control under the constraints on the thrust direction for a nonlinea...
peer reviewedThe control of the relative distance between the satellites in a formation is investiga...
For a typical satellite constellation design problem, sometimes there are two conflicting goals. On ...
peer reviewedThis paper provides a new, exact controller for formation-keeping in the presence of at...
The authors present an orbital guidance scheme for the satellite with an electrical propulsion syste...
Precision Formation Flying is an enabling technology for a variety of proposed space-based observato...
An innovative dynamics and control algorithm is developed for a dual-nanosatellite formation flying ...
This work presents a non-linear control strategy for the docking of two spacecraft in a leader-follo...