Title :
Robustness issues in path planning and control
Author_Institution :
Dept. of Comput. Sci., Massachusetts Univ., Amherst, MA, USA
Abstract :
Neither traditional robot planning, nor the more recent behavior-based paradigm promises to scale to interesting problem solving tasks for complex sensorimotor systems operating in unstructured environments. It is unreasonable to require complete and precise world geometry. Paths constructed on this basis alone ignore physics and so violate the precision assumptions that they require. Moreover, flexible, goal-oriented behavior can not be designed as a fixed reflexive response to local stimulus. The author argues for a design specification that addresses correctness, incomplete information, and uncertainty. The author proposes that truly intelligent automation can not be completely designed a priori, but must be structured to produce safe and relevant motor alternatives, and must adapt to varying problem solving contexts
Keywords :
computational complexity; path planning; position control; robots; robust control; behavior-based paradigm; complex sensorimotor systems; correctness; design specification; flexible goal-oriented behavior; incomplete information; intelligent automation; path planning; problem solving; robustness issues; uncertainty; unstructured environments; Context modeling; Costs; Path planning; Predictive models; Problem-solving; Robot sensing systems; Robust control; Sliding mode control; Uncertainty; Wiring;
Conference_Titel :
Assembly and Task Planning, 1995. Proceedings., IEEE International Symposium on
Conference_Location :
Pittsburgh, PA
Print_ISBN :
0-8186-6995-0
DOI :
10.1109/ISATP.1995.518806
