SEQUENCING TO MINIMIZE WORK OVERLOAD IN ASSEMBLY LINES WITH PRODUCT OPTIONS
成果类型:
Article
署名作者:
YANO, CA; RACHAMADUGU, R
署名单位:
University of Michigan System; University of Michigan
刊物名称:
MANAGEMENT SCIENCE
ISSN/ISSBN:
0025-1909
DOI:
10.1287/mnsc.37.5.572
发表日期:
1991
页码:
572-586
关键词:
ASSEMBLY LINES
Sequencing
dynamic programming
heuristics
摘要:
We address the problem of sequencing jobs, each of which is characterized by one of a large number of possible combinations of customer-specified options, on a paced assembly line. These problems arise frequently in the automotive industry. One job must be launched into the system at equal time intervals, where the time interval (or cycle time) is prespecified. The problem is to sequence the jobs to maximize the total amount of work completed, or equivalently, to minimize the total amount of incomplete work (or work overload). Since there is a large number of option combinations, each job is almost unique. This fact precludes the use of existing mixed model assembly line sequencing techniques. We first consider the sequencing problem for a single station which can perform two different sets of operations. We characterize the optimal solution for this problem and use the results as the basis for a heuristic procedure for multiple stations. Computational results with data from a major automobile company are reported.
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