標題: | 備份件供應鏈系統運輸組態設計之研究 Transportation Configuration Design for a Spare Parts Supply Chain System |
作者: | 林雅娟 Ya-Jiuan Lin 巫木誠 Muh-Cherng Wu 工業工程與管理學系 |
關鍵字: | 備份件;供應鏈系統;類神經網路;基因演算法;spare part;supply chain system;neural network;genetic algorithm |
公開日期: | 2004 |
摘要: | 本論文提出一降低備份件供應鏈系統營運成本的方法,此供應鏈系統為多個單位組成之網路,當其中任意兩個單位之間的運輸時間降低時,可減少備份件存貨水準,然而亦提高運輸費用。因此,本論文目標為設計一最佳運輸組態,所提方法主要分為四個階段:首先,本文使用可以有效設計備份件供應鏈系統之商用軟體OPUS10,作為計算存貨水準工具;其次為利用類神經網路方法建立快速運算機制,以估算OPUS10函數;然後發展一基因演算法搜尋近似最佳運輸組態;最後,發展模擬程式來精確估計此最佳運輸組態之績效。 This thesis proposes an approach to reduce the operating cost of a spare part supply chain system. Such a supply chain system is a network consisting of many nodes. The reduction of transportation time between any two nodes may reduce the inventory level of each node; at the price of paying more transportation fees. This research aims to identify an optimal transportation configuration. The proposed approach involves four major stages. First, we use OPUS10, a commercial software for effectively designing a spare part supply chain system, as a tool for computing the inventory levels for some sampled supply chain transportation configurations. Second, a neural network approach is used to establish a fast-computing mechanism to emulate the function of OPUS10. Third, a genetic algorithm is developed to identify a near optimal transportation configuration. Finally, a simulation program is developed to accurately evaluate the performance of the identified transportation configuration. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#GT009233510 http://hdl.handle.net/11536/77080 |
Appears in Collections: | Thesis |