Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/6291
標題: 自動化物料系統搬送效率分析與研究
Automatic Material Handling System Transport Efficiency Analysis and Research
作者: 陳國華
Chen, Kuo-Hua
關鍵字: TFT-LCD;薄膜液晶顯示器;automatic material handling system;shortest path algorithm;route selection rule;自動化物料搬送系統;最短路徑理論;路徑選擇規則
出版社: 電機工程學系所
引用: [1] 陳弘升、劉傳銘、廖明傑,“一個在動態環境下的最短路徑搜尋演算法”, 台北科技大學資訊工程系研究論文,2008。 [2] 顏豪君,“快速評估 12 吋晶圓廠AMHS 的模擬方法”,國立交通大學工業工程與管理學系碩士論文,2006。 [3] 王宗一,“建構一具有標準通訊協定的自動倉儲整合控制模擬系統”,國立成功大學工程科學系碩士論文,2008。 [4] 蔡嘉陞,“藉由避開塞車點位置與考慮等待理論來改善自動化物料搬運系統派車路徑法則”,逢甲大學半導體與光電產業研發碩士班碩士論文,2006。 [5] 游欽宏,“半導體與平面顯示器製造自動化技術”,機械月刊,第三十卷第十二期,pp.6-23,2005。 [6] 魏銘佑,“先遇到先服務之分散式控制自動物料搬運系統之改善研究”,國立雲林科技大學工業工程與管理研究所碩士論文,2003。 [7] 楊景如,“晶圓廠自動化物料搬運系統之搬運策略模擬研究”,國立交通大學工業工程與管理學系博士論文,2009。 [8] Larry L. Peterson, Bruce S. Davie, Computer Network, 3rd Edition, Elsevier Science Ltd, pp. 285-288, 2003. [9] Dima Nazzal, Leon F. McGinnis, “An analytical model of vehicle-based automated material handling system in semiconductor FABS, ” Proceedings of the 2006 Winter Simulation Conference, pp.1871-1879, 2006 [10] Fu Kuwn Wang, James T. Lin, “Performance evaluation of an automated material handling system for a wafer fab, ” Robotics and Computer-Integrated Manufacturing, pp. 91-100, 2004. [11] Yung Jye Sha, James T. Lin, and Ching Ju Yang, “The evaluation of search range assignment in 300 mm automated material handling system,” International Journal of Advanced Manufacturing Technology, Vol.35, pp. 697-710, 2008. [12] Ming Mao Wong, Chuan Hoo Tan, Jie B. Zhang, Lin Q. Zhuang, Yi Zhi Zhao, Margaret Meiling Luo, “On-line reconfiguration to enhance the routing flexibility of complex automated material handling operations,” Robotics and Computer-Integrated Manufacturing, pp. 294-304, 2007. [13] Namdar Bahri, Robert J. Gaskins, “Automated material handling system traffic control by means of node balancing,” Proceedings of the 2000 Winter Simulation Conference, pp.1344-1346, 2000. [14] Keisuke Nakajima, Route select logic, Asyst Technologies Japan Inc, 2008.
摘要: 
由於薄膜液晶顯示器的生產環境較為嚴苛,除了無塵室的潔淨度之外,其生產過程也須使用自動化物料搬送設備來提升生產效率。隨著薄膜液晶顯示器製造的世代演進,受限於資金、廠房大小、卡匣重量、製程技術等因素,自動化物料搬送設備的效率也需要更精進與更多的彈性來配合不同的生產或製程模式。

因為薄膜液晶顯示器的自動化物料搬送設備複雜度較高,每個自動化物料搬送系統無時無刻的互相傳遞物料,就如同電腦網路一般。因此,本篇論文以最短路徑理論為基礎,研究如何改善自動化物料搬送系統的傳送效率。

實驗中,以實際的自動化物料系統搬送能力加上最短路徑選擇規則,並利用假設檢定方式來分析實驗前後的數據,實驗結果為平均可以提高百分之三的物料搬送系統的效率,與減少百分之三十六的物料搬送時間。

The requirements of TFT-LCD production environment are more stringent. In addition to the cleanliness of the cleanroom, the production process also requires the use of automatic material handling system to improve production efficiency. With the evolution of TFT-LCD manufacturing and limited by factors such as cost, fab size, cassette weight, process technology and other factors, the efficiency of automatic material handling system requires more improvements and more flexibility to fit with the different modes of production or process.

Automatic material handling system for TFT-LCD is complex. Materials need to be transferred all the time just like computer network. Therefore, this thesis applies the theory of the shortest path to study how to improve the transportation efficiency of automatic material handling system.

The experiments are based on the transportation capacity of the real automatic material handling system. Using hypothesis testing to analyze the data before and after shortest path selection, the experiment results are that average transportation efficiency is improved by 3% and material transfer time is reduced by 36%.
URI: http://hdl.handle.net/11455/6291
其他識別: U0005-0907201223204700
Appears in Collections:電機工程學系所

Show full item record
 

Google ScholarTM

Check


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.