Article ID: | iaor1994539 |
Country: | United States |
Volume: | 4 |
Issue: | 3/4 |
Start Page Number: | 309 |
End Page Number: | 330 |
Publication Date: | Jun 1992 |
Journal: | International Journal of Flexible Manufacturing Systems |
Authors: | Chryssolouris George, Pierce James E., Dicke Kristian |
This paper introduces a generic decision-making framework for assigning resources of a manufacturing system to production tasks. Resources are broadly defined production units, such as machines, human operators, or material handling vehicles; and tasks are activities performed by resources. In the specific context of FMS, resources correspond to individual machines; tasks correspond to operations to be performed on parts. The framework assumes a hierarchical structure of the system and calls for the execution of four consecutive steps to make a decision for the assignment of a resource to a task. These steps are 1) establishment of decision-making criteria, 2) formation of alternative assignments, 3) estimation of the consequences of the assignments, and 4) selection of the best alternative assignment. This framework has been applied to an existing FMS as an operational policy that decides what task will be executed on which resource of this FMS. Simulation runs provide some initial results of the application of this policy. It is shown that the policy provides flexibility in terms of system performance and computational effort.