论文信息 - Optimally Locating Multiple Dwell Points in a Single Loop Guide Path System

Optimally Locating Multiple Dwell Points in a Single Loop Guide Path System

Dwell points for idle vehicles affect the performance of automated guided vehicle systems. An exact polynomial-time algorithm to solve idle vehicle positioning problems in both unidirectional and bidirectional single loop systems is developed to minimize the maximum response time. The proposed algorithm considers several potential locations for the first dwell point and applies a dynamic programming procedure to obtain the remaining dwell points for each initial location. The algorithm is streamlined by applying certain optimality properties. Computational results show that the algorithm can solve large-scale problems in reasonable time.

Jose A. Ventura | Chul Ung Lee

[1] Hark Hwang,et al. Determination of unit load sizes of AGV in multi-product multi-line assembly production systems , 1999 .

[2] Kap Hwan Kim,et al. Positioning of automated guided vehicles in a loop layout to minimize the mean vehicle response time , 1995 .

[3] Fataneh Taghaboni. Scheduling and control of manufacturing systems with critical material handling , 1989 .

[4] Pius J. Egbelu,et al. Potentials for bi-directional guide-path for automated guided vehicle based systems , 1986 .

[5] S. Reveliotis. Conflict resolution in AGV systems , 2000 .

[6] Pius J. Egbelu,et al. Dynamic relative positioning of AGVs in a loop layout to minimize mean system response time , 1996 .

[7] J. Coyle,et al. The management of business logistics , 1976 .

[8] Pius J. Egbelu,et al. Positioning of automated guided vehicles in a loop layout to improve response time , 1993 .

[9] Yavuz A. Bozer,et al. Tandem Configurations for Automated Guided Vehicle Systems and the Analysis of Single Vehicle Loops , 1991 .

[10] Jose A. Ventura,et al. A study of the tandem loop with multiple vehicles configuration for automated guided vehicle systems , 2001 .

[11] Dileep R. Sule,et al. Manufacturing facilities : location, planning, and design , 1988 .

[12] Eric V. Denardo,et al. Dynamic Programming: Models and Applications , 2003 .