Title :
Multisensory shared autonomy and tele-sensor-programming-Key issues in the space robot technology experiment ROTEX
Author :
Brunner, B. ; Hirzinger, G. ; Landzettel, K. ; Heindl, J.
Author_Institution :
German Aerosp. Res. Establ., Oberpfaffenhofen, Germany
Abstract :
Outlines key technologies in the approach of the author\´s research establishment to space robotics. Based on multisensory gripper technology, local on-board sensory feedback, and predictive graphic simulation (with emphasis on sensory simulation) a tele-sensor programming concept is introduced that allows sensor-based teleoperation in spite of large signal delays as well as sensor-based off-line programming following a "learning by showing" concept. A small multisensory robot based on these concepts has flown in space with a ten-day Space Shuttle mission. This robot technology experiment ROTEX was very successful and showed that, with these sensor-based concepts, even present-day space robots can perform different prototype tasks in a variety of operational modes, including automatic (reprogrammable) operation, and on-board teleoperation using human and/or machine intelligence
Keywords :
aerospace control; ROTEX; Space Shuttle mission; large signal delays; learning by showing; local on-board sensory feedback; machine intelligence; multisensory gripper technology; multisensory shared autonomy; on-board teleoperation; operational modes; predictive graphic simulation; prototype tasks; reprogrammable automatic operation; sensor-based off-line programming; sensor-based teleoperation; sensory simulation; space robotics; tele-sensor programming; Feedback; Grippers; Intelligent robots; Orbital robotics; Predictive models; Robot programming; Robot sensing systems; Robotics and automation; Space shuttles; Space technology;
Conference_Titel :
Intelligent Robots and Systems '93, IROS '93. Proceedings of the 1993 IEEE/RSJ International Conference on
Conference_Location :
Yokohama
Print_ISBN :
0-7803-0823-9
DOI :
10.1109/IROS.1993.583924
