论文信息 - A real-time AGV-scheduling system that combines human decision-making with integer-programming algorithms

A real-time AGV-scheduling system that combines human decision-making with integer-programming algorithms

A description is given of the interaction of a human operator and an automated transportation system within a cell of an FMS. The interaction of a human operator with operations-research-based scheduling algorithms is the research focus. The human role in management of the cell transportation system consists of monitoring the status of parts requiring transportation and, when necessary, interacting with the automated scheduling system to affect the produced schedules in such a way that compensation is made for late parts. Specific operator interaction methods are proposed. Experiments to test the detailed supervisory control philosophy are then discussed.<<ETX>>

Christine M. Mitchell | Loren K. Platzman | Joseph E. Krebs

[1] L. Platzman,et al. Heuristics Based on Spacefilling Curves for Combinatorial Problems in Euclidean Space , 1988 .

[2] S. Gershwin,et al. A control perspective on recent trends in manufacturing systems , 1986, IEEE Control Systems Magazine.

[3] Ramchandran Jaikumar,et al. A COMPUTERIZED VEHICLE ROUTING APPLICATION , 1982 .

[4] Christine M. Mitchell,et al. A supervisory control paradigm for real-time control of flexible manufacturing systems , 1988 .

[5] Pietro Laface,et al. A Rule-Based System to Schedule Production , 1986, Computer.

[6] Bruce L. Golden,et al. OR Forum - Perspectives on Vehicle Routing: Exciting New Developments , 1986, Oper. Res..

[7] Christine M. Mitchell,et al. The effectiveness of supervisory control strategies in scheduling flexible manufacturing systems , 1988, IEEE Trans. Syst. Man Cybern..