Title :
Multicyclic hoist scheduling with constant processing times
Author :
Che, Ada ; Chu, Chengbin ; Chu, Feng
Author_Institution :
Lab. d´´Optimization des Syst. Industriels, Univ. de Technologie de Troyes, France
fDate :
2/1/2002 12:00:00 AM
Abstract :
Proposes an exact algorithm for the multicyclic schedules of hoist moves in a printed circuit board (PCB) electroplating facility, where exactly r(r>1) parts enter and r parts leave the production line during each cycle, and the processing time at each production stage is a given constant. The multicyclic scheduling problem is transformed into enumeration of intervals for linear functions of decision variables. This enumeration is accomplished with a branch and bound procedure. At each node of the search tree, by solving a linear programming problem (LPP), either the corresponding partial solution is proved to be unable to lead to a feasible solution, or a lower bound is computed. Due to its particular structure, this LPP is equivalent to a cycle time evaluation problem in a bivalued graph which can be solved efficiently. The proposed algorithm is polynomial in the number of tanks for a fixed r, but exponential if r is arbitrary. Computational experience with both benchmark and randomly generated test instances is presented
Keywords :
computational complexity; decision theory; electroplating; hoists; linear programming; printed circuit manufacture; production control; tree searching; PCB electroplating facility; bivalued graph; branch and bound procedure; constant processing times; decision variables; linear functions; linear programming; multicyclic hoist scheduling; printed circuit board electroplating facility; search tree; Chemical processes; Galvanizing; Job shop scheduling; Materials handling; Printed circuits; Processor scheduling; Production systems; Scheduling algorithm; Service robots; Throughput;
Journal_Title :
Robotics and Automation, IEEE Transactions on
