Abstract: This work addresses a nonlinear Lyapunov-like feedback control to establish and maintain a given relative orbit. Traditional feed-back of cartesian position and velocity tracking error vectors results in an accurate, but expensive, control action. Working with orbit elements eventually allows to reduce such cost by accomplishing corrective manoeuvres on particularly convenient conditions. Moreover it allows to define convenient target relative motions. Hence, by pursuing this approach, here errors in Euler orbit elements are fed-back, thus joining to the previously mentioned benefits the intrinsic more exhaustive exploitation of the dynamics that the Euler set carries with him. These elements, in fact, arise from the sol...
A set of linearized relative motion equations of spacecraft flying on unperturbed elliptical orbits ...
A control methodology to design and establish spacecraft formations is presented. The intuitive desi...
For the upcoming formation flying technology demonstration mission NetSat a relative orbit propagato...
This work deals with the dynamics of spacecrafts in formation. The relative motion is described thro...
In this paper, we develop a nonlinear Lyapunov-based control law and a novel mean-motion control str...
Regarding multiple spacecraft formation flying, the observation has been made that control thrust ne...
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...
A Newton-type method is proposed to improve the accuracy of control for relative motion of two satel...
The development of feedback control systems for autonomous orbital rendezvous is a key technological...
Formation flying of spacecraft has gained a lot of interest within the engineering and scientific co...
This paper analyzes the problem of precise autonomous orbit control of a spacecraft in a low Earth o...
The growing level of autonomy of unmanned space missions has attracted a significant amount of resea...
This dissertation studies formation flight in the unstable environment about the Earth-Sun halo orbi...
This paper presents the control solutions to the spacecraft formation reconfiguration problem when i...
A set of linearized relative motion equations of spacecraft flying on unperturbed elliptical orbits ...
A control methodology to design and establish spacecraft formations is presented. The intuitive desi...
For the upcoming formation flying technology demonstration mission NetSat a relative orbit propagato...
This work deals with the dynamics of spacecrafts in formation. The relative motion is described thro...
In this paper, we develop a nonlinear Lyapunov-based control law and a novel mean-motion control str...
Regarding multiple spacecraft formation flying, the observation has been made that control thrust ne...
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...
A Newton-type method is proposed to improve the accuracy of control for relative motion of two satel...
The development of feedback control systems for autonomous orbital rendezvous is a key technological...
Formation flying of spacecraft has gained a lot of interest within the engineering and scientific co...
This paper analyzes the problem of precise autonomous orbit control of a spacecraft in a low Earth o...
The growing level of autonomy of unmanned space missions has attracted a significant amount of resea...
This dissertation studies formation flight in the unstable environment about the Earth-Sun halo orbi...
This paper presents the control solutions to the spacecraft formation reconfiguration problem when i...
A set of linearized relative motion equations of spacecraft flying on unperturbed elliptical orbits ...
A control methodology to design and establish spacecraft formations is presented. The intuitive desi...
For the upcoming formation flying technology demonstration mission NetSat a relative orbit propagato...