Exact methods in optimum disassembly sequence search for problems subject to sequence dependent costs

Disassembling complex products is formally approached via network representation and subsequent mathematical modeling, aimed at selecting a good or optimum sequence of disassembly operations. This is done via heuristics, metaheuristics or mathematical programming. In contrast with heuristics and met...

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Vydáno v:Omega (Oxford) Ročník 34; číslo 6; s. 538 - 549
Hlavní autor: Lambert, A.J.D.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Oxford Elsevier Ltd 01.12.2006
Elsevier
Pergamon Press Inc
Edice:Omega
Témata:
Assembly planning
Assembly planning Disassembly planning Mathematical programming Network Traveling salesperson problem Optimization
Disassembly planning
Linear programming
Mathematical models
Mathematical programming
Network
Network flow problem
Optimization
Studies
Traveling salesman problem
Traveling salesperson problem
Disassembly planning
Traveling salesperson problem
Optimization
Assembly planning
Network
Mathematical programming
ISSN:0305-0483, 1873-5274
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Shrnutí:Disassembling complex products is formally approached via network representation and subsequent mathematical modeling, aimed at selecting a good or optimum sequence of disassembly operations. This is done via heuristics, metaheuristics or mathematical programming. In contrast with heuristics and metaheuristics, which select a near-optimum solution, mathematical programming guarantees the selection of the global optimum. This problem is relatively simple if the disassembly costs can be assumed sequence independent. In practice, however, sequence dependent disassembly costs are frequently encountered, which causes NP-completeness of the problem. Although methods, e.g., based on the two-commodity network flow approach, are available to solve this constrained asymmetric Traveling Salesperson problem rigorously, this requires the introduction of integer variables. In this paper, a modification of the two-commodity network flow approach is proposed, which reduces the number of integer variables. This is applied to product structures that can be represented by a disassembly precedence graph. It is demonstrated that use of integer variables is completely avoided by iteratively solving a binary integer linear programming problem. This appears to be more efficient than solving the corresponding integer linear programming problem. It is demonstrated, on the basis of some cases, that this method might provide the exact solution of problems with increased complexity compared to those discussed so far in the literature. This appears particularly useful for evaluating heuristic and metaheuristic approaches.
Bibliografie:SourceType-Scholarly Journals-1
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content type line 14
ISSN:0305-0483
1873-5274
DOI:10.1016/j.omega.2005.01.005