Add to ORKGThe problem of a low-thrust spacecraft controlled to a reference orbit is addressed in this paper. A simple and explicit low-thrust guidance scheme with constrained thrust magnitude is developed by combining the fundamental equations of motion for constrained systems from analytical dynamics with a Lyapunov-based method. Examples are given for a spacecraft controlled to a reference trajectory in the circular restricted three body problem
This thesis proposes a continuous low-thrust guidance and control strategy for satellite formation-f...
International audienceIn this paper, we present the controllability properties of Keplerian motion c...
We consider low-thrust orbit transfers around a central body, where specified changes are sought in ...
Low-thrust engines are appealing for use on both earth-based satellites and interplanetary spacecraf...
textAnalytical solutions to complex trajectory design problems are scarce, since only a few specific...
The authors present an orbital guidance scheme for the satellite with an electrical propulsion syste...
In this study, low-thrust strategies aimed at the modification of specific orbital elements are inve...
An explicit near-optimal guidance scheme is developed for a terminal rendezvous of a spacecraft with...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77340/1/AIAA-1972-916-170.pd
A new analytical formulation is presented to approach low-thrust trajectories design, in the framewo...
Applications of electric propulsion to spaceflight in multi-body environments require a targeting al...
This paper proposes a real-time implementable Lyapunov-based guidance algorithm for small-body proxi...
We present a method to incorporate low-thrust propulsion into the invariant manifolds techniques for...
A low-thrust guidance algorithm suitable for operational use was formulated. A constrained linear fe...
This thesis is concerned with the development of a spacecraft guidance which will solve the problem ...
This thesis proposes a continuous low-thrust guidance and control strategy for satellite formation-f...
International audienceIn this paper, we present the controllability properties of Keplerian motion c...
We consider low-thrust orbit transfers around a central body, where specified changes are sought in ...
Low-thrust engines are appealing for use on both earth-based satellites and interplanetary spacecraf...
textAnalytical solutions to complex trajectory design problems are scarce, since only a few specific...
The authors present an orbital guidance scheme for the satellite with an electrical propulsion syste...
In this study, low-thrust strategies aimed at the modification of specific orbital elements are inve...
An explicit near-optimal guidance scheme is developed for a terminal rendezvous of a spacecraft with...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77340/1/AIAA-1972-916-170.pd
A new analytical formulation is presented to approach low-thrust trajectories design, in the framewo...
Applications of electric propulsion to spaceflight in multi-body environments require a targeting al...
This paper proposes a real-time implementable Lyapunov-based guidance algorithm for small-body proxi...
We present a method to incorporate low-thrust propulsion into the invariant manifolds techniques for...
A low-thrust guidance algorithm suitable for operational use was formulated. A constrained linear fe...
This thesis is concerned with the development of a spacecraft guidance which will solve the problem ...
This thesis proposes a continuous low-thrust guidance and control strategy for satellite formation-f...
International audienceIn this paper, we present the controllability properties of Keplerian motion c...
We consider low-thrust orbit transfers around a central body, where specified changes are sought in ...