PLANETARY EXPLORATIONS MISSIONS AVOID THE DESTINATIONS THAT OFFER THE GREATEST SCIENTIFIC PAYOUT BECAUSE THESE DESTINATIONS COME WITH A RISK TOO GREAT FOR A PRIMARY ROVER. THE MANY CAVES CANYONS AND PITS THAT COVER THE SURFACE OF MARS AND THE MOON HAVE IMMENSE SCIENTIFIC VALUE YET THE RUGGED TERRAIN AND PRECIPITOUS SLOPES OF THESE FEATURES ARE TOO DANGEROUS TO RISK THE PRIMARY MISSION ASSET. THE SOLUTION TO THIS RISK PROBLEM IS A SYMBIOTIC ARCHITECTURE CONSISTING OF A PRIMARY ROVER AND ONE OR MORE SECONDARY COMPANION ROVERS. THESE SECONDARY ROVERS WOULD BE LESS EXPENSIVE POTENTIALLY EXPENDABLE AND CAPABLE OF EXPLORING HAZARDOUS TERRAIN AND FEATURES WITHOUT RISKING THE MISSION IF LOST. THE BENEFITS OF A SYMBIOTIC ARCHITECTURE EXTEND FAR BEYOND SIMPLE RISK MITIGATION THE SECONDARY ROVERS COULD EXPLORE MORE AREA EFFICIENTLY PROVIDE OPERATORS WITH ADDITIONAL VIEWPOINTS OF OBJECTS OF INTEREST AND ASSIST OPERATORS IN DEBUGGING PROBLEMS WITH THE PRIMARY ROVER BY PROVIDING VIEWS THAT WOULD BE OTHERWISE IMPOSSIBLE TO TAKE. THOUGH SYMBIOTIC MULTI ROBOT SYSTEMS HAVE BEEN DEVELOPED FEW HAVE BEEN IN THE CONTEXT OF HAZARDOUS PLANETARY EXPLORATION. THOSE THAT HAVE FOCUS PRIMARILY ON THE MECHANICAL CHALLENGES OF SUCH A SYSTEM. THERE ARE MULTIPLE ALGORITHMIC CHALLENGES RELATING TO COORDINATION BETWEEN THE ROVERS THAT ARE BARRIERS TO A SYMBIOTIC ROVER ARCHITECTURE BEING REALIZED. THE PROPOSED RESEARCH WILL ALLOW SYMBIOTIC ROVER TEAMS TO BETTER NAVIGATE AND EXPLORE HAZARDOUS TERRAIN BY DEVELOPING AND APPLYING INNOVATIVE METHODS IN COMBINED PATH PLANNING TASK ALLOCATION AND LOCALIZATION. THE ALGORITHMS DEVELOPED BY THIS RESEARCH WILL ENABLE SYMBIOTIC ROVERS TO BOLDLY EXPLORE SCIENTIFIC FRONTIERS CURRENTLY CONSIDERED BEYOND LIMITS BY NASA. THE PROPOSED RESEARCH WILL IMPROVE CURRENT DISTANCE AND TIME CONSTRAINED MULTI ROBOT PATH PLANNING ALGORITHMS BY SHIFTING THE CONSTRAINTS FROM THE TIME DOMAIN TO RESOURCE COST DOMAIN. THIS WILL ALLOW THE SECONDARY ROVER WITH MORE LIMITED RESOURCES ENERGY SAMPLE STORAGE ETC TO RENDEZVOUS WITH THE PRIMARY ROVER BEFORE THE RESOURCE IS EXPENDED. INITIAL EXPERIMENTATION OF THE ALGORITHM WILL BE DONE IN SIMULATION BY AUTOMATICALLY GENERATING THE HAZARD MAPS AND VERIFYING THE OPTIMALITY OF THE GENERATED PATHS. IF THEY ARE CONSISTENTLY SUCCESSFUL THE METHODS AND ALGORITHMS WILL BE TESTED IN THE FIELD WITH MOBILE ROBOTS.
$45,500FY2015National Aeronautics and Space AdministrationNASA
Carnegie Mellon University, Pittsburgh PA