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Autonomous Spacecraft Rendezvous Using Tube-Based Model Predictive Control: Design and Application

Caroline Specht, Abhiraj Bishnoi, Roberto Lampariello

2023Journal of Guidance Control and Dynamics30 citationsDOI

Abstract

As the concentration of large space debris increases, how rendezvous maneuvers involving these typically non-cooperative, freely tumbling bodies are planned and executed is evolving. The rendezvous must be carefully planned, employing up-to-date in situ data to identify the inertial and motion parameters of the target body, and executed in a manner that accounts for the remaining uncertainty in these parameters. This paper presents an extension of the Tumbling Rendezvous via Autonomous Characterization and Execution (TRACE) pipeline used in the ROAM/TumbleDock Astrobee experiment campaign, which sequences the target state estimation, motion planning, controller design, and maneuver execution tasks while additionally providing logical loop-back avenues to previous tasks, increasing the chances of a successful maneuver. The pipeline’s performance is analyzed in simulation, utilizing target state estimates generated in a previous activity on a dedicated on-ground test bed; online motion planning, based on nonlinear programming and warm-started using a trajectory library generated offline with a novel graphics-processing-unit-based method; and tube-based model predictive control to robustly track the planned trajectory. Tube-based model predictive control is an actively evolving subject, distributed over multiple publications and various research interests. The necessary theory and considerations for practical implementation of the method are consolidated; its use, features, and limitations in the proposed task are demonstrated.

Topics & Concepts

RendezvousComputer scienceTrajectoryModel predictive controlSpacecraftPipeline (software)Task (project management)Control engineeringMotion planningSimulationControl theory (sociology)Real-time computingArtificial intelligenceControl (management)EngineeringSystems engineeringRobotAerospace engineeringAstronomyPhysicsProgramming languageSpace Satellite Systems and ControlAstro and Planetary ScienceAdvanced Control Systems Optimization
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