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International Society of Science and Applied Technologies |
| Fuzzy-Based Reliability Evaluation for a Labor-Intensive Manufacturing System | ||||
| Author | Ping-Chen Chang
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| Co-Author(s) | Yi-Kuei Lin; Kai-Jen Hsueh
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| Abstract | This paper proposes a fuzzy-based reliability evaluation for a labor-intensive manufacturing system considering repair. Such a manufacturing system is constructed as a labor-intensive manufacturing network (LMN) to deal with the workstations consisting of laborers. Based on the concept of fuzzy multistate, each workstation-reliability is measured by three fuzzy membership functions for workload state. Subsequently, the system reliability is evaluated in terms of all workstation-reliabilities, in which the system reliability is derived by fuzzy intersection. That is, the system reliability is a fuzzy membership function that the LMN performs reliable to satisfy demand. A footwear manufacturing system is utilized to illustrate the proposed methodology.
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| Keywords | Fuzzy multistate, labor-intensive manufacturing network, system reliability, repair | |||
| Article #: 20174 | ||||
August 7-9, 2014 - Seattle, Washington, U.S.A. |