Worker allocation in lean U-shaped production lines

U-shaped lines are widely used in lean systems. In U-shaped production lines, each worker handles one or more machines on the line: the worker allocation problem is to establish which machines are handled by which worker. This differs from the widely-investigated U-line assembly line balancing problem in that the assignment of tasks to line locations is fixed. This paper address the worker allocation problem for lean U-shaped production lines where the objectives are to minimize the quantity of workers and maximize full work: such allocations provide the opportunity to eliminate the least-utilized worker by improving processes accordingly. A mathematical model is developed: the model allows for any allocation of machines to workers so long as workers do not cross paths. Walking times are considered, where workers follow circular paths and walk around other worker(s) on the line if necessary. A heuristic algorithm for tackling the problem is developed, along with a procedure representing the ‘traditional’ approach of constructing standard operations routines. Computational experiments considering three line sizes (up to 20 machines) and three takt time levels are performed. The results show that the proposed algorithm both improves upon the traditional approach and is more likely to provide optimal solutions.

[1]  Marc J. Schniederjans,et al.  U-OPT: An analysis of exact U-shaped line balancing procedures , 2003 .

[2]  Ihsan Sabuncuoglu,et al.  Balancing of U-type assembly systems using simulated annealing , 2001 .

[3]  Armin Scholl,et al.  A survey on problems and methods in generalized assembly line balancing , 2006, Eur. J. Oper. Res..

[4]  J. Wijngaard,et al.  The U-line balancing problem , 1994 .

[5]  Timothy L. Urban,et al.  Note. Optimal Balancing of U-Shaped Assembly Lines , 1998 .

[6]  John Miltenburg,et al.  U-shaped production lines: A review of theory and practice , 2001 .

[7]  윤태혁,et al.  (The) U-line line balancing problem with the moving time of operator = U자형 라인에서 작업자 이동시간을 고려한 라인밸런싱에 관한 연구 , 1996 .

[8]  Dean H. Kropp,et al.  The New Manufacturing Challenge: Techniques for Continuous ImprovementThe New Manufacturing Challenge: Techniques for Continuous Improvement, by SuzakiKiyoshi. New York: Free Press, 1987, 270 pp., $24.95, cloth. , 1988 .

[9]  洲崎 清,et al.  The new manufacturing challenge : techniques for continuous improvement , 1987 .

[10]  John B. Kidd,et al.  Toyota Production System , 1993 .

[11]  Katsuhisa Ohno,et al.  An optimal worker allocation problem for a U-shaped production line , 1999 .

[12]  Armin Scholl,et al.  ULINO: Optimally balancing U-shaped JIT assembly lines , 1999 .

[13]  Hadi Gökçen,et al.  A goal programming approach to simple U-line balancing problem , 2006, Eur. J. Oper. Res..

[14]  Nancy Lea Hyer,et al.  Reorganizing the Factory: Competing Through Cellular Manufacturing , 2001 .

[15]  Katsuhisa Ohno,et al.  ANALYSIS AND OPTIMIZATION OF A U-SHAPED PRODUCTION LINE , 1997 .