摘要(英) |
Automatic storage and retrieval systems have been greatly improved and resolved many of the problems of early traditional inventory management, but there are still many who can not break through the bottleneck. Damaged bar codes and the identification of goods can become complicated and time-consuming. Commercial applications of RFID technology and implementation of RFID technology into the operation of the Automated Storage and Retrieval system is bound to break through the bottleneck of current storage systems, and will do more to enhance the performance of automated storage operations.
The bar code is the widest-used user tag in the world. Issues arising from the use of bar codes in the build of automatic storage system include, first, storage pallet bar code Fuzzy Identification, second, storage pallet bar codes scraped when in transportation, and third, as a result of traditional inventory needs an expenditure of significant manpower, money and time. This study looks at first the causes and effects of the bar code system in the operation of the existing automatic storage systems, and second, researches the processes of the bar code in the automated storage and retrieval systems.
In this study, Royce’s (1970) waterfall model is referenced to establish the research framework and the development of life cycle steps according to the system development life cycle (SDLC) model with the traditional system. Additionally, system analysis tools are used for in-depth analysis of automatic warehousing systems which process the bar code.
The purpose of this study is to show how companies can use RFID information systems quickly and efficiently to grasp the flow of materials, and accurately and in a timely manner understand the materials through the storage of information. Specifically, this research and analysis will cover the following four areas:
1.Study of the processes of automatic storage and retrieval systems
2.Research RFID feasibility analysis of automated storage and retrieval systems
3.Analysis of the RFID system in real-time inventory tracking functions
4.Analysis of RFID’s application in processes to enhance the performance of automatic storage system operations
|
參考文獻 |
【英文文獻】
1. Bally, L., Brittan, J., and Wagner, K. H., (1977), A Prototype Approach to Information System Design and Development, Information and Management, 1(1), 21-26.
2. Bodo Ischebeck. (2005). RFID technology and its development trend analysis.
3. Brumbaugh, D. E., (1991), Object-oriented Development Building CASE Tools with C++, John Wiley and Sons, Canada.
4. Davis, W. S. (1983), “System Analysis And Design: A Structured Approach,” Boston, MA: Addison-Wesley.
5. Hoffer J. A., George J. F., and Valacich J. S., (2008), Modern Systems Analysis and Design, 5th ed., Pearson Education, Inc., NJ:New Jersey.
6. Jacobson, I., Booch, G., and Rumbaugh, J., (1999), The Unified Software Development Process, Addison-Wesley, Reading, Massachusetts.
7. James Wetherbe(1994) & Nicholas P. Vitalari-System Analysis and Design.
8. Royce, W. W., (1987), Managing the Development of Large Software Systems: Concepts and Techniques, ICSE 9, Computer Society Press.
【中文文獻】
1. 王宗一. (2009). 成功大學無線射頻技術應用於圖書館館藏尋書先導計劃.
2. 朱明彰. (2005). 基於代理人群己架構之通式化巷道多車AS/RS 執行管控系統設計. 國立高雄第一科技大學機械與自動化工程所碩士論文.
3. 周坤約. (20003). 以志願模式實施體育專項 選項選課之系統設計研究. 國立中央大學資訊管理研究所碩士論文.
4. 林坤濱. (20003). 內嵌式自動倉儲(In-line Stocker)於大尺寸面板廠應用之探討–以TFT-LCD 公司為例. 國立中央大學工業管理研究所碩士論文.
5. 洪文政. (2006). RFID於飯店管理應用. 國立高雄第一科技大學輸與倉儲營運研究所碩士論文
6. 吳念祖. (2008). RFID產業發展現況與挑戰.
7. 姚銀河、黃明官(1997),「系統分析與設計」,台灣台北,高立。
8. 馬成珉. (2011). RFID資訊系統開發與設計 台北市:華泰書局.
9. 高志中. (2007). RFID資訊應用系統之設計實務. 台北縣:博碩文化.
10. 許文源. (2005). 無線射頻(RFID)於倉儲管理之研究. 大葉大學資訊管理學所碩士論文.
11. 陳仁珍. (2010). 設備維護流程之自動化管理—使用系統分析方法建構網路程式系統. 國立高雄應用科技大學工業工程與管理研究所碩士論文.
12. 陳永興. (2004). 建構RFID監控技術應用在物流中心之風險分析. 國立高雄第一科技大學輸與倉儲營運研究所碩士論文
13. 楊靜宜. (2000). RFID基礎下之物流倉儲系統. 國立交通大學交通運輸研究所碩士論文.
14. 盧建名. (2005). 物流中心導入RFID之個案探討及中介軟體之發展. 國立交通大學運輸科技與管理研究所碩士論文.
15. 關剛石,「自動倉庫介紹」,工研院機械所,1987 年6 月。
|