Litcius/Paper detail

Abort-Safe Spacecraft Rendezvous on Elliptic Orbits

Daniel Aguilar-Marsillach, Stefano Di Cairano, Avishai Weiss

2022IEEE Transactions on Control Systems Technology14 citationsDOI

Abstract

We develop a spacecraft rendezvous policy that ensures safe, collision-free trajectories under various thrust failure scenarios. We use backward reachable sets (RSs) to characterize the unsafe region where, if a failure occurs, a collision between a chaser and a target spacecraft cannot be avoided with the remaining available thrust. The chaser spacecraft is guided toward the target via model predictive control (MPC) that ensures abort safety by avoiding the unsafe region, which is locally convexified with half-spaces. Simulations of the rendezvous policy on various orbits demonstrate that the approach ensures safe aborts in the event of multiple thruster failures, passive abort safety under total thruster failure, and achieves some robustness to unmodeled orbital perturbations.

Topics & Concepts

RendezvousSpacecraftAbortCollision avoidanceRobustness (evolution)Computer scienceControl theory (sociology)CollisionThrustAerospace engineeringEngineeringControl (management)Computer securityGeneOperating systemChemistryArtificial intelligenceBiochemistrySpace Satellite Systems and ControlSpacecraft Dynamics and ControlAstro and Planetary Science