Litcius/Paper detail

Assemblers: A Modular, Reconfigurable Manipulator for Autonomous in-Space Assembly

J. R. Cooper, James H. Neilan, Matthew Mahlin, Laura White

2020ASCEND 202012 citationsDOI

Abstract

This paper presents a modular, reconfigurable robotic manipulator for autonomous in-space assembly. On-orbit and planetary surface assembly is a challenging domain that encompasses various technological thrusts to support human exploration, science, and technology demonstration missions. The system architecture presented here addresses the need for robotic assembly of structures in locations that prohibit constant human oversight and/or teleoperation. This system is capable of scheduling, reconfiguring itself, and executing structural assembly tasks with the ability to assess construction and correct errors during the assembly as needed. An example concept of operations is presented. Details of the mechanical and electrical design of the robotic modules as well as the dynamic modeling approach, control algorithms, and sensing and perception systems are also provided.

Topics & Concepts

Modular designComputer scienceSpace (punctuation)Manipulator (device)Self-reconfiguring modular robotControl engineeringComputer architectureRobotEngineeringArtificial intelligenceMobile robotProgramming languageRobot controlOperating systemModular Robots and Swarm IntelligenceRobotic Path Planning AlgorithmsSpace Satellite Systems and Control
Assemblers: A Modular, Reconfigurable Manipulator for Autonomous in-Space Assembly | Litcius