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Autonomous control for on-orbit assembly using potential function methods

Frank McQuade, Colin R. McInnes

Year
1997
Citations
30

Abstract

Abstract Potential function methods have been applied extensively to many terrestrial and space robot control problems. This paper extends these methods to multiple robot problems for on-orbit assembly. By considering a population of free-flying robotic vehicles in orbit, capable of both rotation and translation, the potential function method reduces complex assembly problems to sets of simple translation and rotational commands. This is achieved using a potential function incorporating both collision avoidance between the free-flyers and connection constraints in the assembled structure. The method also allows a subsumptive type control architecture with the flexibility to carry out many different assembly tasks simultaneously.

Keywords

Translation (biology)Flexibility (engineering)Computer scienceFunction (biology)Collision avoidanceOrbit (dynamics)RobotRotation (mathematics)Control engineeringSimulation

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