Title :
An action-chain model for the design of hazard-control systems for robots
Author :
Sato, Yoshinobu ; Henley, Ernest J. ; Inoue, Koichi
Author_Institution :
Res. Inst. of Ind. Safety, Tokyo, Japan
fDate :
6/1/1990 12:00:00 AM
Abstract :
The authors establish a hazard-control design methodology based on a categorization of action changes and the dissociation of action chains. In this methodology, the damage process is modeled by propagation of actions among system elements, the actions are put into two groups (state-failure and function-failure), the concept of action-linkage dissociation is developed for damage prevention, application rules for information-processing systems are defined, and a systematic procedure to identify hazards and to conceptualize hazard-control systems is developed. It is postulated that dissociations involving paths or sources lead to fail-safe systems, while those involving substitution-of-function lead to fault-tolerant systems. Examples involving robot systems are given to demonstrate the new technology
Keywords :
control system synthesis; industrial robots; reliability theory; safety systems; action-chain model; action-linkage dissociation; damage prevention; design methodology; fail-safe systems; fault-tolerant systems; function-failure; hazard-control systems; information-processing systems; robots; state-failure; Control systems; Couplings; Design methodology; Failure analysis; Fault tolerant systems; Hazards; Reliability engineering; Safety; Service robots; US Department of Transportation;
Journal_Title :
Reliability, IEEE Transactions on
