Add to ORKGInternational audienceThe optimal fuel impulsive time-fixed rendezvous problem is reviewed. In a linear setting, it may be reformulated as a non convex polynomial optimization problem for a pre-specified fixed number of velocity increments. Relying on variational results previously published in the literature, an improved mixed iterative algorithm is defined to address the issue of optimization over the number of impulses. Revisiting the primer vector theory, it combines variational tests with sophisticated numerical tools from algebraic geometry to solve polynomial necessary and sufficient conditions of optimality. Numerical examples under circular and elliptic assumptions show that this algorithm is efficient and can be integrated into a ...
International audienceThis paper focuses on the fixed-time minimum-fuel out-of-plane rendezvous betw...
In this article, we focus on safe and effective completion of a rendezvous and docking task by looki...
International audienceA new minimum-fuel glideslope guidance algorithm for approaching autonomously ...
International audienceThe optimal fuel impulsive time-fixed rendezvous problem is reviewed. In a lin...
International audienceThis paper focuses on the fixed-time minimum-fuel rendezvous between close ell...
In this paper, a direct approach is presented to tackle the multi-impulse rendezvous problem conside...
In this paper we present, a comparison of trajectory optimization approaches for the minimum fuel re...
In this paper, an approach is presented for finding the optimal long-range space rendezvous in terms...
International audienceThe problem of fixed-time fuel-optimal trajectories with high-thrust propulsio...
In recent years, there has been a growing demand for the autonomous rendezvous and docking capabilit...
A method has been developed for determining optimal, i.e. minimum fuel, trajectories for the fixed-t...
This paper investigates the use of evolutionary algorithms for the optimization of time-constrained ...
This paper investigates the use of evolutionary algorithms for the optimization of time-constrained ...
Minimum-fuel, impulsive, time-fixed extremal solutions are obtained for the problem of orbital rende...
International audienceThis paper focuses on the fixed-time minimum-fuel out-of-plane rendezvous betw...
International audienceThis paper focuses on the fixed-time minimum-fuel out-of-plane rendezvous betw...
In this article, we focus on safe and effective completion of a rendezvous and docking task by looki...
International audienceA new minimum-fuel glideslope guidance algorithm for approaching autonomously ...
International audienceThe optimal fuel impulsive time-fixed rendezvous problem is reviewed. In a lin...
International audienceThis paper focuses on the fixed-time minimum-fuel rendezvous between close ell...
In this paper, a direct approach is presented to tackle the multi-impulse rendezvous problem conside...
In this paper we present, a comparison of trajectory optimization approaches for the minimum fuel re...
In this paper, an approach is presented for finding the optimal long-range space rendezvous in terms...
International audienceThe problem of fixed-time fuel-optimal trajectories with high-thrust propulsio...
In recent years, there has been a growing demand for the autonomous rendezvous and docking capabilit...
A method has been developed for determining optimal, i.e. minimum fuel, trajectories for the fixed-t...
This paper investigates the use of evolutionary algorithms for the optimization of time-constrained ...
This paper investigates the use of evolutionary algorithms for the optimization of time-constrained ...
Minimum-fuel, impulsive, time-fixed extremal solutions are obtained for the problem of orbital rende...
International audienceThis paper focuses on the fixed-time minimum-fuel out-of-plane rendezvous betw...
International audienceThis paper focuses on the fixed-time minimum-fuel out-of-plane rendezvous betw...
In this article, we focus on safe and effective completion of a rendezvous and docking task by looki...
International audienceA new minimum-fuel glideslope guidance algorithm for approaching autonomously ...