Title :
Optimal deadlock avoidance policy for reentrant work flows
Author :
Hsieh, Fu-Shiung
Author_Institution :
Overseas Chinese Inst. of Technol., Taiwan
Abstract :
Deadlock is a highly undesirable situation in which a set of parts or jobs are requested or waiting for resources held by other parts or jobs in the same set, with the set of parts or jobs in circular waiting. Although deadlock has attracted considerable attention in the context of automated manufacturing systems, most existing results focus on development of suboptimal deadlock avoidance algorithms to reduce the computational complexity involved. The paper considers a subclass of sequential processes whose optimal deadlock avoidance policy can be found in polynomial time. Our results include: (1)a re-entrant process model (2) analysis for single re-entrant process and (3)examples and extension to multiple work flows
Keywords :
computational complexity; directed graphs; flexible manufacturing systems; resource allocation; computational complexity; multiple work flows; optimal deadlock avoidance policy; polynomial time; reentrant process model; reentrant work flows; sequential processes; Computer aided manufacturing; Context; Control systems; Flexible manufacturing systems; Manufacturing systems; Polynomials; Production; Resource management; Routing; System recovery;
Conference_Titel :
Robotics and Automation, 2002. Proceedings. ICRA '02. IEEE International Conference on
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-7272-7
DOI :
10.1109/ROBOT.2002.1013580
