Concurrent Design of Cellular Manufacturing Systems: A Genetic Algorithm Approach
Cellular manufacturing (CM) has been recognized as an innovative practice for companies to regain competitive advantages under today's small-to-medium lot manufacturing environment. Among the necessary decisions for a successful CM implementation, cell formation (CF) and group layout (GL) are the two most popular ones. These decisions have received extensive attention but are often treated as separate or sequential processes, despite their cross impact on each other. In this paper, we propose a new approach to concurrently solve the CF and GL problems. A conceptual framework and mathematical model, which integrates these two decisions and incorporates some important factors, such as operation sequence, part demand, transfer batch, machine capacity, and layout type, are proposed. A hierarchical genetic algorithm (HGA) is developed to solve the integrated cell design problem. The results from our investigations show that: (1) the proposed HGA procedure performs better than two other heuristics, and (2) the concurrent approach often finds better solutions than the sequential one.
Cellular manufacturing, Cell formation, Group layout, Genetic algorithms
Computer Sciences | Operations Research, Systems Engineering and Industrial Engineering
Information Systems and Management
International Journal of Production Research
Taylor and Francis
WU, X. D; CHU, Chao-Hsien; WANG, Y. F.; and YAN, W..
Concurrent Design of Cellular Manufacturing Systems: A Genetic Algorithm Approach. (2006). International Journal of Production Research. 44, (6), 1217-1241. Research Collection School Of Information Systems.
Available at: http://ink.library.smu.edu.sg/sis_research/1162