Open AccessBoulder Capture System Design Options for the Asteroid Robotic Redirect Mission Alternate Approach Trade Study
Author(s) -
Scott P. Belbin,
Raymond G. Merrill
Publication year - 2014
Publication title -
aiaa space 2014 conference and exposition
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2014-4434
Subject(s) - asteroid , astrobiology , computer science , remotely operated underwater vehicle , embedded system , systems engineering , robot , engineering , mobile robot , artificial intelligence , physics
This paper presents a boulder acquisition and asteroid surface interaction electromechanical concept developed for the Asteroid Robotic Redirect Mission (ARRM) option to capture a free standing boulder on the surface of a 100 m or larger Near Earth Asteroid (NEA). It details the down select process and ranking of potential boulder capture methods, the evolution of a simple yet elegant articulating spaceframe, and ongoing risk reduction and concept refinement efforts. The capture system configuration leverages the spaceframe, heritage manipulators, and a new microspine technology to enable the ARRM boulder capture. While at the NEA it enables attenuation of terminal descent velocity, ascent to escape velocity, boulder collection and restraint. After departure from the NEA it enables, robotic inspection, sample caching, and crew Extra Vehicular Activities (EVA).
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