Industrial Engineering and Management Systems
- Volume 7 Issue 1
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- Pages.99-107
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- 2008
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- 1598-7248(pISSN)
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- 2234-6473(eISSN)
Dynamic Scheduling of FMS Using a Fuzzy Logic Approach to Minimize Mean Flow Time
- Srinoi, Pramot (Department of Mechatronics Engineering Pathumwan Institute of Technology) ;
- Shayan, Ebrahim (Faculty of Engineering and Industrial Sciences Swinburne University of Technology) ;
- Ghotb, Fatemeh (Faculty of Engineering and Industrial Sciences Swinburne University of Technology)
- Published : 2008.06.30
Abstract
This paper is concerned with scheduling in Flexible Manufacturing Systems (FMS) using a Fuzzy Logic (FL) approach. Four fuzzy input variables: machine allocated processing time, machine priority, machine available time and transportation priority are defined. The job priority is the output fuzzy variable, showing the priority status of a job to be selected for the next operation on a machine. The model will first select the machines and then assign operations based on a multi-criteria scheduling scheme. System/machine utilization, minimizing mean flow time and balancing machine usage will be covered. Experimental and comparative tests indicate the superiority of this fuzzy based scheduling model over the existing approaches.