遠距醫療照護輔助裝置:位置及體溫監控

Shih-Wei Chen; 陳士維

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/24444

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DC 欄位	值	語言
dc.contributor.advisor	郭德盛
dc.contributor.author	Shih-Wei Chen	en
dc.contributor.author	陳士維	zh_TW
dc.date.accessioned	2021-06-08T05:26:14Z	-
dc.date.copyright	2005-07-28
dc.date.issued	2005
dc.date.submitted	2005-07-20
dc.identifier.citation	[1] G. J. Mandellos, D. K. Lymperopoulos, M. N. Koukias, A. Tzes, N. Lazarou, and C. Vagianos, “A Novel Mobile Telemedicine System for Ambulance Transport. Design and Evaluation”, Proceedings of the 26th Annual International Conference of the IEEE EMBS, San Francisco, CA, USA • September 1-5, 2004 [2] B. Woodward , R. S. H. Istepanian, and C. I. Richards, “Design of a Telemedicine System Using a Mobile Telephone”, IEEE Transaction on Information Technology in Biomedicine, Vol. 5, No. 1, Mrach 2001 [3]Habib Istepanian, R.S.; “Modelling of GSM-based mobile telemedical system” Engineering in Medicine and Biology Society, 1998. Proceedings of the 20th Annual International Conference of the IEEE , Volume: 3 , 29 Oct.-1 Nov. 1998 , Page(s): 1166 -1169 vol.3 [4] M. V. M. Figueredo, J. S. Dias “Mobile Telemedicine System for Home Care and Patient Monitoring”, Proceedings of the 26th Annual International Conference of the IEEE EMBS, 2004 [5] Murakami, H.; Shimizu, K.; Yamamoto, K.; Mikami, T.; Hoshimiya, N.; Kondo, K.; ”Telemedicine using mobile satellite communication”, Biomedical Engineering, IEEE Transactions on Volume 41, Issue 5, May 1994 Page(s):488 - 497 [6] Lipson L, Henderson TM: State Initiatives to Promote Telemedicine. Washington DC: Intergovernmental Health Policy Project., George Washington University, Telemed J. 1996 Summer;2(2):109-21. [7] Bashshur RL: On the definition and evaluation of telemedicine. Telemed. Journal 1995, vol.1, pages 19-30 [8] Chen HS, Guo FR, Lee RG, Lin CC, Chen JH, Chen CY, Kuo TS, Hou SM, ” Recent advances in telemedicine”, J Formos Med Assoc. 1999 Nov;98(11):767-72 [9] Virtanen, Ari, 2002. “Navigation and Guidance System for the Blind.”, http://www.vtt.fi [10] Makino, H.; Ishii, I.; Nakashizuka, M.; “Development of navigation system for the blind using GPS and mobile phone combination”, Engineering in Medicine and Biology Society, 1996. Bridging Disciplines for Biomedicine. Proceedings of the 18th Annual International Conference of the IEEE Volume 2, 31 Oct.-3 Nov. 1996 Page(s):506 - 507 vol.2 [11] Gundy P, “International Electronic Link Solves Medical Puzzles.” JAMA 1995; 274; 1750 [12] Lin CC, Chen HS, Chen CY, Hou SM, “Implementation and evaluation of a multifunctional telemedicine system in NTUH”, International Journal of Medical Informatics. 2001 May;61(2-3):175-87。 [13] APTT亞太健康遠距科技股份有限公司，http://www.aptt.com.tw/ [14] Chen HS, Guo FR, Chen CY, Chen JH, Kuo TS, “Review of telemedicine projects in Taiwan”, International Journal of Medical Informatics. 2001 May;61(2-3):117-29. [15] Sinha, G., 2003, “虛擬醫療”, 科技時代, Vol. 29, 2003. [16] S. Pavlopoulos, S. Dembeyiotis, G. Konnis, D. Koutsouris, “Mobile unit for health care provision via telematics support” 18th Annual international conference of IEEE engineering in medicine and biology, 1996 [17] Pattichis, C.S.; Kyriacou, E.; Voskarides, S.; Pattichis, M.S.; Istepanian, R.; Schizas, C.N.; “Wireless telemedicine systems: an overview“, Antennas and Propagation Magazine, IEEE , Volume: 44 Issue: 2 , April 2002 Page(s): 143 -153 [18] Marsh, A.; May, M.; Saarelainen, M.; “Pharos: coupling GSM and GPS-TALK technologies to provide orientation, navigation and location-based services for the blind”, Information Technology Applications in Biomedicine, 2000. Proceedings. 2000 IEEE EMBS International Conference on , 9-10 Nov. 2000, Page(s): 38 -43 [19] Helal, A.; Moore, S.E.; Ramachandran, B.; “Drishti: an integrated navigation system for visually impaired and disabled”, Wearable Computers, 2001. Proceedings. Fifth International Symposium on , 8-9 Oct. 2001,Page(s): 149 -156 [20] Lisa Ran, Sumi Helal and Steve Moore, “Drishti: An Integrated Indoor/Outdoor Blind Navigation System and Service”, Proceedings of the Second IEEE Annual Conference on Pervasive Computing and Communications [21] A. G. Heriot, “Delay in presentation after myocardial infraction”, J. R. Soc. Med, vol. 86, pp. 62-64, 1993. [22] 林仁政、翁芳標, “無線通訊系統”, 全華科技, 1997. [23] 東名, “行動通訊發展”, 文魁資訊, 2001. [24] Christoffer Andersson , “GPRS與3G無線應用程式”, 王潤邑,李依峻譯, 全華書局, 2002. [25] http://www.dgt.gov.tw/flash/index.shtml [26] E. D. Kaplan, “Understanding GPS: Principles and Application.”, Artech House, London, 1996. [27] “TMS320LF2407A Reference Guide”, http://www.ti.com [28] 劉鶴笙，「GSM/GPRS 無線通信系統於地理位置監控之應用」，國立成功大學碩士論文，2002. [29] “TMS320LF2407A data sheet”, 旺陽電企業股份有限公司http://www.vp-ic.com [30] “9540 Specification”, http://www.leadtek.com [31] “SiRFdemo Reference”, http://www.sirf.com [32] “Application Note for SIM100 TCP/IP AT Commands”, SIMCOM [33] 董勝源, “DSP TMS320LF2407與C語言控制實習”, 長高科技圖書, 2004
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/24444	-
dc.description.abstract	本研究的主要目的在實現一可攜式且具有遠距監控及定位功能之輔助裝置，用於行動安全照護以健全遠距醫療網絡系統。此裝置主要目的為遠距監控慢性病患使用者在醫院之外活動時的生理參數，並利用全球定位系統(Global Positioning System, GPS)取得使用者所在地點資訊，後可經由語音介面告知使用者本身所在地點，以及透過無線封包交換通訊服務(Global Packet Radio Service, GPRS)網路回傳使用者所在地給醫護人員的功能。研究中利用數位訊號處理器(Digital Signal Processor, DSP)整合其他模組來實現此一裝置，試圖縮小裝置體積及重量，以便達成便於攜帶且不會影響使用者行動的目的。遠距監控輔助裝置除了可以連續性且長時間的監控病患的生理數據，更有效利用醫療資源外；還有緊急救援功能，當病患外出卻突然病發時可以立即通報並請求救護車前往救援病患，爭取寶貴的時間。此外，此裝置也可以應用在居家照護方面，可以讓病人在家自己做簡易的健康檢查，詳細的生理狀況在醫生對健康狀況做出分析後，便可以利用電話、電子郵件或傳真機來告知病患本身的身體健康情況。在本論文中已經完成伺服器端與使用者端之連線，並進行正常人之測試，但尚未有臨床測試。	zh_TW
dc.description.abstract	This research focuses on the implementation of a portable assistant device with the characteristics of remote monitoring and locating function. This portable device has been designed to assist patients with chronic diseases in the out-of-hospital monitoring. In addition, it can transmit locating information from the Global Positioning System (GPS) and tell patients where they are right now via its voice interface. It also can return the location of the patients to the paramedics via Global Packet Radio Service (GPRS) network. Integrating with a digital signal processor (DSP) and other modules, this portable assistant device can provide the long-term monitoring and navigation without disturbing patients’ activities of daily living. Moreover, this proposed device with GPS can help patients to get used to the unfamiliar and familiar environments. This assistant device can provide the remote monitoring and continuously long-term recording patients’ vital signs. Moreover, this device can inform an emergence station if the patient is in danger or encounters other accidents, and then an ambulance will be sent to rescue his life. By doing this, it can increase the efficiency and survival rates many times. In addition, when the patient is at home, he can use this device to have a simple inspection of his physical signals and sent this data to the hospital, and then the physicians or nurses will analyze it and send him an instant report via telephone, fax machine or e-mail. We have completed the client part and built the connection between the GSM network and the Internet to transmit the information through the Transmission Control Protocol/Internet Protocol (TCP/IP). We will continue to achieve the server part and have a clinic trial to validate the proposed device in the future.	en
dc.description.provenance	Made available in DSpace on 2021-06-08T05:26:14Z (GMT). No. of bitstreams: 1 ntu-94-R92921115-1.pdf: 1990295 bytes, checksum: 74eb5b5972a2deb84437f0df0cf11177 (MD5) Previous issue date: 2005	en
dc.description.tableofcontents	目錄第一章　緒論 1 1.1　前言 1 1.2　背景介紹 2 1.2.1　遠距醫療概述 2 1.2.2　戶外視障者導盲概述 4 1.3　遠距醫療的優點及應用 6 1.4　遠距醫療及遠距安全照護的現狀 8 1.5　研究動機與目的 10 1.6　文獻回顧 12 1.6.1　遠距醫療相關文獻回顧 12 1.6.2　視障者導盲文獻回顧 14 1.7　論文架構 15 第二章　系統理論基礎 17 2.1　系統概述 17 2.2　GPRS無線通信理論 21 2.2.1　GSM的起源 21 2.2.2　GSM行動通信服務架構 21 2.2.3　GSM的數據服務 23 2.2.4　GSM存取方法 24 2.3　GPRS無線通訊系統 27 2.3.1　GPRS的發展背景 27 2.3.2　GPRS資料傳輸方式 27 2.3.3　GPRS網路的通訊架構 28 2.4　GPS全球定位系統 31 2.4.1　GPS的發展背景 31 2.4.2　GPS系統架構 31 2.4.3　衛星導航訊號 33 2.4.4　衛星定位之原理 35 第三章　系統架構 37 3.1　系統軟硬體介紹 37 3.2　系統使用者端之軟硬體電路與設計 39 3.2.1　數位控制電路 39 3.2.2　核心處理器 40 3.2.3　全球定位系統 44 3.2.4　GPRS數據機 48 3.2.5　使用者端硬體設計 50 3.2.6　DSP主程式設計流程 51 3.3　系統伺服器端人機介面操作 59 第四章　系統驗證與結果 61 4.1　使用者端硬體規格 61 4.2　系統使用者端控制測試 66 4.2.1　DSP與GSM 數據機之通訊 66 4.2.2　DSP與GPS之通訊 68 4.2.3　使用者端體溫感測電路之類比輸入 69 4.2.4　使用者端外部中斷訊號輸入 72 4.3　戶外測試與討論 73 4.3.1　戶外測試之接收數據 73 4.3.2　結果討論 75 第五章　結論與未來展望 77 5.1　結論 77 5.2　未來展望 77 參考文獻 81
dc.language.iso	zh-TW
dc.subject	全球定位系統	zh_TW
dc.subject	遠距醫療照護	zh_TW
dc.subject	數位訊號處理器	zh_TW
dc.subject	無線封包交換通訊服務	zh_TW
dc.subject	GPS	en
dc.subject	Remote Health-Care	en
dc.subject	DSP	en
dc.subject	GPRS	en
dc.title	遠距醫療照護輔助裝置:位置及體溫監控	zh_TW
dc.title	A Remote Health-Care Assistive Device:Monitoring of Location and Temperature	en
dc.type	Thesis
dc.date.schoolyear	93-2
dc.description.degree	碩士
dc.contributor.coadvisor	陳友倫,陸哲駒
dc.contributor.oralexamcommittee	賴金鑫,盧並裕
dc.subject.keyword	遠距醫療照護,全球定位系統,無線封包交換通訊服務,數位訊號處理器,	zh_TW
dc.subject.keyword	Remote Health-Care, GPS, GPRS, DSP,	en
dc.relation.page	84
dc.rights.note	未授權
dc.date.accepted	2005-07-20
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	電機工程學研究所	zh_TW
顯示於系所單位：	電機工程學系

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