Title :
Accommodating FMS operational contingencies through routing flexibility
Author :
Reveliotis, Spyros A.
Author_Institution :
Sch. of Ind. & Syst. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
fDate :
2/1/1999 12:00:00 AM
Abstract :
Overwhelmed by the complexity of the FMS deadlock avoidance problem, current research has, for the most part, ignored the aspects (and benefits) related to flexible (dynamic) job routing. Extending current structural control policies, based on static job routing, to accommodate routing flexibility is nontrivial, primarily due to the fact that the possible routing options for a single job can grow exponentially fast. Hence, computationally efficient techniques are required to incorporate the inherent FMS routing flexibility to current structural control schemes. This paper undertakes the investigation of the problem of integrating routing flexibility in FMS structural control, by addressing the problem of “optimal” job rerouting in case of operational contingencies. Analytical formulations and efficient solution algorithms are developed for the case that the FMS is structurally controlled by a class of recently emerging polynomial-complexity one-step look ahead deadlock avoidance policies, collectively known as Ω DAP
Keywords :
computational complexity; flexible manufacturing systems; production control; Ω DAP; FMS deadlock avoidance problem; FMS operational contingencies; computationally efficient techniques; current structural control policies; efficient solution algorithms; flexible dynamic job routing; optimal job rerouting; polynomial-complexity one-step look ahead deadlock avoidance policies; routing flexibility; static job routing; structural control schemes; Algorithm design and analysis; Automatic control; Electrical equipment industry; Flexible manufacturing systems; Manufacturing systems; Polynomials; Resource management; Routing; Supervisory control; System recovery;
Journal_Title :
Robotics and Automation, IEEE Transactions on
