Title page for 963206006


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Student Number 963206006
Author Yi-liang Guo(郭益良)
Author's Email Address No Public.
Statistics This thesis had been viewed 970 times. Download 1294 times.
Department Graduate Institute of Environmental Engineering
Year 2008
Semester 2
Degree Master
Type of Document Master's Thesis
Language zh-TW.Big5 Chinese
Title Development of a RFID System for Contract Workers' Safety Management
Date of Defense 2009-06-13
Page Count 78
Keyword
  • contract worker
  • RFID
  • virtual inspector
  • Abstract Abstract
    Unlike regular employee, contract workers are often at high risk in their working environments. Statistically, about 53% of serious accidents in work places can be attributed to contract workers. This is mainly due to their unsafe behaviors, unauthorized enter prohibited area, and unfamiliar with their ever changing work assignments. This study exams the possibility of using RFID to create a virtual inspection system that may reduce fataities.
    The achievements of this research include: (1) A RFID based virtual inspector system that will automatically exame worker’s identity and safety conditions at work was developed and tested; (2) Wireless capability was added to both passive and active RFID system, and worked smoothly in the field. labor the status of safety device; (3) The wireless communication protocol, through testing, can satisfy requirement of RFID communication rate on construction site; (4) New safety device with active alarming equipped with RFID sensor set up in the safety harness provides not only personal protection but also real-time sensing and monitoring for management; (5) The location identification module can provide working route tracking and suit the condition of construction sites.
    This new technology will bring management in construction industry to higher stage after advanced testing of stability and longedity. Wire-less transition integrated with database would make it more efficient and accurate in this device. This new safety device can monitor safety condition of labors and contractors and provide securety and emergency control for dynamic and real-time working environment.
    Table of Content 目  錄
    第一章 研究緣起與目的1
    1.1 研究緣起1
    1.2 研究目的3
    1.3 研究流程與研究內容3
    第二章 文獻回顧6
    2.1 我國營造業安全相關現況6
    2.2無線射頻身分辨識技術8
    2.2.1技術發展基本簡介8
    2.2.2 RFID和BARCODE辨識方法的差別11
    2.2.3 RFID系統與舊有管理方法的差別13
    2.3 RFID標準規格15
    2.3.1 RFID三大規範15
    2.3.2 EPC GEN2標準發展簡介18
    2.4 營造產業RFID之相關應用20
    2.4.1國內營造產業相關應用20
    2.4.2國外營建產業之RFID應用方向22
    2.5 電磁波危害及法規規範23
    第三章 系統運作機制與硬軟體架構25
    3.1 系統運作原理及情境分析25
    3.1.1系統完整管理正常使用狀況27
    3.1.2 異常狀況及其應用處理28
    3.2 系統功能需求及架構30
    3.2.1功能需求30
    3.2.2系統硬體架構30
    3.2.3系統軟體架構33
    第四章 系統開發35
    4.1 系統規劃35
    4.1.1資料傳輸方法35
    4.1.2硬體模組發展40
    4.1.3軟體程式規劃45
    4.2 基本元件介紹48
    4.2.1硬體單元介紹48
    4.2.2電力供應單元介紹52
    4.3 系統軟體開發54
    4.3.1監控資料管理子系統54
    4.3.2微處理器控制程式54
    第五章 系統測試結果與討論56
    5.1 工地系統架設及規劃56
    5.2 系統作業工地實場測試57
    5.2.1虛擬檢查員系統測試58
    5.2.2區域定位系統正確性測試61
    5.2.3 區域定位與虛擬檢查員系統整合測試64
    5.2.4區域定位與警報系統整合測試66
    5.3 問卷資料結果分析70
    第六章 結論與建議74
    6.1 結論74
    6.2 建議76
    參考文獻77
    Reference 參考文獻
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    [4] 林楨中、戴基福,”營造業勞工不安全行為及其原因之探討”,工業安全衛生月刊,2004年5月。
    [5] EPCglobal Taiwan,http://www.epcglobal.org.tw/epcg/jsp/index.jsp
    [6] “RFID Multiple Access Methods” ETH Zürich, Summer semester 2004.
    [7] RFID 技術與應用,周湘琪(譯),日經BP RFID 技術編輯部(編),旗標出版社,2005。
    [8] EAN Taiwan,http://www.can.org.tw/
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    [10] EPCglobal Taiwan,http://www.epcglobal.org.tw/epcg/jsp/index.jsp
    [11] EPC Global http://www.epcglobalinc.org/
    [12] Ubiquitous ID Center,http://www.uidcenter.org
    [13] “The EPC Class Structure” Toronto, ON, July, 2006,GAO RFID Inc.
    [14] “EPCTM Tag Data Standards Version 1.1 Rev.1.27,”Standard Specification,EPC Global,10 May 2005.
    [15] 簡文聖,” 96年無線射頻辨識(RFID)於建築產業之應用計畫研究課題規劃”, 建築研究簡訊第55期,民國97年。
    [16] 尹衍樑、蔡順吉,”RFID於預鑄產業的應用-以潤泰生管系統為例”,土木水利,第三十二卷,第四期,第 36-40頁,2005。
    [17] DIGITIMES科技網,http://www.digitimes.com.tw/ ,2007年 三月。
    [18] 謝世文,”無線射頻辨識(RFID)於營建產業發展策略之研究”,國立台灣大學碩士論文,2006。
    [19] 吳榮元、鄭明淵,無線射頻辨識(RFID)技術於鋼骨工程吊裝即時監控之應用,台灣科技大學碩士論文,2005。
    [20] 呂芫逢、王隆昌,”無線射頻辨識(RFID)應用於混凝土試體電子化管理之研究”,台北科技大學碩士論文,2006年。
    [21] Furlani, K. M. and Pfeffer, L.E., “Automated Tracking of Structural Steel Members at the Construction Site, “ Proceedings of Automation and Robotics in Construction XVII , Taipei, Taiwan, pp. 1201 -1206. (2000).
    [22] Jaselski, E. J. and Eimisalami, T., “Implementing Radio Frequency Identification in the Construction Process, “ASCE Journal of Construction Engineering and Management,Vol.129, No.6,pp.680-688,2003.
    [23] WAKE Inc., Concrete Maturity Monitoring System,
    http://www.wakeinc.com/pages/conmat.html,2005.
    [24] Marshutz, S. “Hey Where Did My ToolsGo?”,http://www.reevesjournal.com, 2002.
    [25] Chase, J. and Yim, M. , “Optimal Stabilization of Column Buckling,“ ASCE Journal of Engineering Mechanics, Vol. 125, No. 9, pp. 987 -993,1999.
    [26] 石豐銘、陳正忠,射頻辨識於營建業之應用,土木水利,第三十二卷 第三期,第 43-48頁,2005年。
    [27] 行政院環境保護署,非屬原子能游離輻射管制網,
    http://ivy1.epa.gov.tw/nonionized_net/default.aspx。2009年5月
    Advisor
  • none(于樹偉)
  • none(王鵬堯)
  • Files
  • 963206006.pdf
  • approve immediately
    Date of Submission 2009-06-27

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