Title :
Supervising Remote Humanoids Across Intermediate Time Delay
Author :
Hambuchen, Kimberly ; Bluethmann, William ; Goza, Michael ; Ambrose, Robert ; Rabe, Kenneth ; Allan, Mark
Author_Institution :
Autom., Robotics & Simulation Div., NASA Johnson Space Center, Houston, TX
Abstract :
The President´s Vision for Space Exploration, laid out in 2004, relies heavily upon robotic exploration of the lunar surface in early phases of the program. Prior to the arrival of astronauts on the lunar surface, these robots will be required to be controlled across space and time, posing a considerable challenge for traditional telepresence techniques. Because time delays will be measured in seconds, not minutes as is the case for Mars Exploration, uploading the plan for a day seems excessive. An approach for controlling humanoids under intermediate time delay is presented. This approach uses software running within a ground control cockpit to predict an immersed robot supervisor´s motions which the remote humanoid autonomously executes. Initial results are presented
Keywords :
aerospace robotics; control engineering computing; delays; humanoid robots; mobile robots; motion control; telerobotics; ground control cockpit; intermediate time delay; motion control; remote humanoid supervision; remote robots; robotic exploration; sensory egosphere; space exploration; telepresence; Delay effects; Extraterrestrial measurements; Humanoid robots; Mars; Moon; Motion control; Orbital robotics; Robot vision systems; Space exploration; Time measurement; autonomous tool use; control over time delay; remote robots; sensory egosphere; space exploration; task assistant;
Conference_Titel :
Humanoid Robots, 2006 6th IEEE-RAS International Conference on
Conference_Location :
Genova
Print_ISBN :
1-4244-0200-X
Electronic_ISBN :
1-4244-0200-X
DOI :
10.1109/ICHR.2006.321392
