運用無線感測器網路於血液透析中心的病患生理值監測

Yung-Cheng Wu; 吳勇成

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/43616

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	江昭皚
dc.contributor.author	Yung-Cheng Wu	en
dc.contributor.author	吳勇成	zh_TW
dc.date.accessioned	2021-06-15T02:24:26Z	-
dc.date.available	2010-08-21
dc.date.copyright	2009-08-21
dc.date.issued	2009
dc.date.submitted	2009-08-18
dc.identifier.citation	方旭明、何蓉。2004。短距離無線與移動通信網路，65-93。北京：人民郵電出版社。行政院衛生署。2007。遠距照護試辦計劃。網址：http://doh.telecare.com.tw/aboutus. aspx。上網日期：2008-11-12。李仁貴、劉新盛、賴建志、陳俊錩、謝冠宇、魏銘賢。2005。基於無線感測器網路之多生理參數整合照護系統。Paper ID: NSC-P-061, Biomedical Engineering Society 2005 Annual Symposium, Chung Yuan Christian University, 17-18. 陳杏婉。2008。血液透析患者周邊動脈阻塞性疾病之篩檢及相關因素分析。碩士論文。桃園：長庚大學護理學研究所。連耀南。2007。GSM。網址： http://cherry.cs.nccu.edu.tw/~lien/NIIslide/GSM/hard copy.htm。臺北：國立政治大學資訊科學系。上網日期：2008-10-10。程淑媛。2009。血液透析患者生活品質相關因素探討。澄清醫護管理雜誌。5(2): 31-40。單片機與嵌入式系統雜誌社。2006。基於TinyOS的無線感測器網絡體系結構。中國。網址： http://210.51.184.98/mes/htm/article_view.asp?id=2013。上網日期：2008-10-10。黃欽揚。2006。在極寬頻無線個人網路中多微網路傳輸集中式排程設計。碩士論文。臺南：國立成功大學電腦與通信工程研究所。黃柏峰。2004。省電型通訊協定之無線感測器網路研究與雛型系統實現。碩士論文。臺南：南臺科技大學電子工程研究所。葛利嘉、朱林、袁曉芳、陳幫富。2005。超寬帶無線電基礎。22-75。北京：電子工業出版社。鄭森友。2006。在極寬頻無線個人網路中多微網路分散式排程設計。碩士論文。臺南：國立成功大學電腦與通信工程研究所。劉新盛。2006。無線居家照護網路之研製。碩士論文。臺北：臺北科技大學電腦與通訊研究所。億聲電子股份有限公司。2004。WiMedia聚合層(上)。網址：www.action.com.tw/tech/　wlan/80215-3.doc。上網日期：2008-10-10。蔡安津。2002。接受血液透析之慢性腎衰竭患者之心律變異性分析。碩士論文。臺北：臺北醫學大學醫學資訊研究所。羅瑋萱。2005。血管張力素轉換酶抑制劑與血管張力素受體阻斷劑在腹膜透析患者之心血管疾病和殘餘腎功能的保護效果。碩士論文。臺南：國立成功大學臨床藥學研究所。 About.com. 2008. Overview of MySQL. Available at: http://www.about.com/. Accessed 10 October 2008. Beutel, J., O. Kasten, F. Mattern, K. Roemer, F. Siegemund, and L. Thiele. 2004. Prototyping wireless sensor network applications with BTnodes. Proceedings of 1st IEEE European Workshop on Wireless Sensor Networks. Berlin. 19-21. Burrell, J., T. Brooke, and R. Beckwith. 2004. Vineyard computing: sensor networks in agricultural production. IEEE CS and IEEE ComSoc. 38-45. Barnas, M. G., W. H. Boer, and H.A. Koomans. 1999. Hemodynamic patterns and spectral analysis of heart rate variability during dialysis hypotension. J Am Soc Nephrol. 10: 2577–2584. Charlotte, N.C. 2008. Chelsea Therapeutics Initiates Phase II Study of Droxidopa in Intradialytic Hypotension. Chelsea Therapeutics International, Ltd. Crossbow. 2008. Available at: http://www.xbow.com/. Accessed 10 October 2008. Cayirci, E., Member, IEEE. 2003. Data Aggregation and Dilution by Modulus Addressing in Wireless Sensor Networks. IEEE communications letters, 7(8). Correia, L. M., and R. Prasad. 1997. An overview of wireless broadband communications. IEEE Communication Magazine. 35(1): 28-38. Dagtas, S., Y. Natchetoi, and H. Wu. 2007. An integrated wireless sensing and mobile processing architecture for assisted living and healthcare applications. In Proc. of International Conference on Mobile Systems, Applications and Services. 70-72. Hu, F., Member, IEEE, M. Jiang, Member, IEEE, M. Wagner, Member, IEEE, and D. C. Dong, Senior Member, IEEE. 2007. Privacy-Preserving Telecardiology Sensor Networks: Toward a Low-Cost Portable Wireless Hardware/Software Codesign. IEEE transactions on information technology in biomedicine. 11(6): 619-627. Hossli, S. M. 2005. Clinical Management of Intradialytic Hypotension: Survey Results. Nephrology Nursing Journal. 32(3): 287-292. Hac, A. 2003. Wireless Sensor Network Designs, John Wiley &Sons, Ltd. England. Hoeben, H., A. K. Abu-Alfa , R. Mahnensmith, and M. A. Perazella. 2002. Hemodynamics in patients with intradialytic hypotension treated with cool dialysate or midodrine. Am J Kidney Dis. 39: 102–107. Hakim, R. M., R. L. Wingard, and R. A. Parker. 1994. Effect of the Dialysis Membrane in the Treatment of Patients with Acute Renal Failure. The New England Journal of Medicine. 331:1338-1342 Haug, T. 1991. GSM, past, present and future development. Proceedings of IEEE International Symposium on Personal, Indoor And Mobile Radio Communications. London: King's College. 1-4. Lim, K., and L. Taylor. 2005. Factors associated with physical activity among older people--a population-based study. Prev Med. 40(1): 33-40. Loh P. K. K., and L. Allan. 2005. Medical Informatics System with Wireless Sensor Network-enabled for Hospitals. IEEE. 265-270. Lorincz, K., D. J. Malan, T.R.F. Fulford-Jones, A. Nawoj, A. Clavel, V. Shnayder, G. Mainland, and M. Welsh. 2004. Sensor Networks for Emergency Response: Challenges and Opportunities. IEEE Pervasive Computing. 3(4): 16-23. Libii, J.N. 1988. Mean arterial pressure and average blood pressure. Bioengineering Conference, 1988., Proceedings of the 1988 Fourteenth Annual Northeast. 208-210. Messier, G. G. and I. G. Finvers. 2007. Traffic Models for Medical Wireless Sensor Networks. IEEE COMMUNICATIONS LETTERS. 11(1): 13-15. Ministry of the Interior. 2006. Overview of services for the elderly living alone in 2006. Available at: http://www.moi.gov.tw/. Accessed 12 December 2006 Moteiv Co. 2006. Available at: http://wsnsolution.bandwavetech.com/download/tmote- sky-datasheet.pdf. Accessed 10 October 2008. Mainwaring, A., J. Polastre, R. Szewczyk, D. Culler, and J. Anderson. 2002. Wireless sensor networks for habitat monitoring. International Workshop on Wireless Sensor Networks and Applications(WSNA). 88-97. Nakauchi, Y., K. Kozakai, S. Taniguchi and T. Fukuda. 2007. Dietary and Health Information Logging System for Home Health Care Services. IEEE Symposium on Foundations of Computational Intelligence (FOCI 2007). Noury, N., T. Herve, V. Rialle, G. Virone, E. Mercier, G. Morey, A. Moro, and T. Porcheron. 2000. Monitoring behavior in home using a smart fall sensor and positionsensors. In Proc. of Conference on the 1st Annual International Microtechnologies in Medicine and Biology. 607-610. Ozeki Message Server. Fastrack modem M1206 User Guide. Available at: http://www.ozeki.hu/attachments/588/M1206B_Manual.pdf. Accessed 10 October 2008. Park, M., H. J. Kang, Y. Huh, and K. C. Kim. 2007. Cuffless and Noninvasive Measurement of Systolic Blood Pressure, Diastolic Blood Pressure, Mean Arterial Pressure and Pulse Pressure using Radial Artery Tonometry Pressure Sensor with Concept of Korean Traditional Medicine. Engineering in Medicine and Biology Society, 2007. EMBS 2007. 29th Annual International Conference of the IEEE. 3597-3600. Salvador, C. H., Member, IEEE, M. P. Carrasco, M. A. González de Mingo, A. M. Carrero, J. M. Montes, L. S. Martín, M. A. Cavero, I. F. Lozano, and J. L. Monteagudo, Member, IEEE. 2005. Airmed-Cardio: A GSM and Internet Services-Based System for Out-of-Hospital Follow-Up of Cardiac Patients. IEEE transactions on information technology in biomedicine. 9(1): 73-85. Straver, B. 2005. Hypotension during hemodialysis. 10-17. Amsterdam, The Netherlands: Ponsen en Looijen BV, Wageningen. Sibley, G. T., M. H. Rahimi, and G. S. Sukhatme. 2002. Robomote: a tiny mobile robot platform for large- scale sensor networks. IEEE International Conference on Robotics and Automation. 1143-1148. Sibbald, B.. 2001. Use computerized systems to cut adverse drug events: Report. CMAJ: Canadian Medical Association Journal. 12(1): 142-149. Sande, F. M., J. P. Kooman, and K. M. L. Leunissen. 2000. Intradialytic Hypotension－New Concepts on an Old Problem. Nephrol Dial Transplant (2000). 15: 1746-1748. Sivapragasam, A., T. Saito and Y. Ito. 1988. Marking adult diamondback moth, Plutella xylostella (L.), and estimation of adult survival rate and population density in a cabbage field. Entomol Zool. 23(3): 245-250. Tamura, T., T. Kawada, and M. Sekine. 2007. The home health care with the ad-hoc network system. SICE Annual Conference, Kagawa University, Japan. Tanaka, S., M. Nogawa, and K. I. Yamakoshi, Member, IEEE. 2005. Fully Automatic System for Monitoring Blood Pressure from a Toilet-Seat Using the Volume-Oscillometric Method. Engineering in Medicine and Biology 27th Annual Conference Shanghai, China. Tislér, A., K. Akócsi, B. Borbás, L. Fazakas, S. Ferenczi, S. Görögh, I. Kulcsár, L. Nagy, J. Sámik, J. Szegedi, E. Tóth, G. Wágner, and I. Kiss. 2003. The effect of frequent or occasional dialysis-associated hypotension on survival of patients on maintenance haemodialysis. Nephrol Dial Transplant. 18: 2601–2605. UCLA. 2001.Available at: http://nesl.ee.ucla.edu/projects/ahlos/hardware.htm. Accessed 10 October 2008. Zhang, Z. 30 Aug. 1999. 21 ideas for the 21st century. Business Week.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/43616	-
dc.description.abstract	透析中低血壓(intradialytic hypotension, IDH)是透析治療中最常見的併發症，其發生的頻率大約有10-50%，老年人、糖尿病及心血管透析病患有更高的發生率，其會產生噁心、嘔吐及焦慮等症狀，嚴重甚至會出現休克和死亡的意外。加上血液透析中心護理人員因忙碌或交班，對病房病患生理監控易被臨床工作中斷，或因監測頻率不同、一人照顧多床病患，而影響醫療品質，因此，本研究整合無線感測器網路(Wireless Sensor Network, WSN)、全球行動通信系統(Global System for Mobile Communications, GSM)和數據資料庫，建立一個透析中心生理數據的自動化監測系統，將無線監測技術應用於病患透析中低血壓的產生，並且透過緊急通報系統，讓家屬或是照護人員即時得知透析中低血壓的發生，進而提供更即時的照護。　　本系統適用範圍為醫院內血液透析中心的固定空間，系統架構主要分成兩大區塊，前端無線網路以及後端資訊處理主控平臺。在血液透析模擬實驗當中，我們模擬一固定空間裡的血液透析狀況，由六位受測者接受生理值監測，訂定時間區間為二小時連續測量，實驗結果顯示，生理值資料平均傳輸成功率為94.84%，生理值信度取樣分析結果顯示，收縮壓平均信度為1，舒張壓平均信度為0.89，而心搏率平均信度為0.94。實驗結果討論，生理值資料遺失率源於空間障礙物阻礙以及單向傳輸過程的資料碰撞。	zh_TW
dc.description.abstract	Intradialytic hypotension (IDH) is a much common complication during a hemodialysis. The prevalence of IDH is about 10-50%. Elderly people, patients with diabetes, and cardiovascular dialysis patients have the highest rate of inci-dences. IDH may lead to nausea, vomiting, or anxiety. In some severe cases, there will be accident like shock and death. Moreover, patients’ physical monitoring is easily interrupted, and medical quality is often compromised, as nurses in a hemodialysis center joggle many tasks at the time. Therefore, the purpose of this paper is to integrate the technologies of wireless sensor networks (WSN) technologies, global systems for mobile communications (GSMs), and a MySQL database to construct an automatic monitoring system to collect physical data during hemodialysis. And an alert can be immediately sent to family members and nurses if IDH occurs. We then apply this wireless monitoring technology to the patients with IDH. This system is applied to an indoor space. The system framework includes two parts: the wireless networks and the controlling platform. During hemodialysis simulations, the average success ratio of physical data transmitting is 94.84%, the average reliability of systolic pressure is 1, of diastolic pressure is 0.89, and of pulse is 0.94, where the testing cases are collected from 6 persons, and the time interval is 2 hours. The loss ratio of physical data results from space constraints and data collision.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T02:24:26Z (GMT). No. of bitstreams: 1 ntu-98-R96631037-1.pdf: 3566786 bytes, checksum: 2e785bb30b9adf34df1b2166825383d6 (MD5) Previous issue date: 2009	en
dc.description.tableofcontents	誌謝......................................................i 摘要.....................................................ii Abstract................................................iii 目錄.....................................................iv 圖目錄.................................................viii 表目錄....................................................x 第一章　前言..............................................1 1.1 研究背景..............................................1 1.2 研究動機及目的........................................2 第二章　文獻探討..........................................3 2.1 腎臟透析..............................................3 2.1.1 慢性腎衰竭..........................................3 2.1.2 透析原理............................................3 2.1.3 血液透析............................................3 2.1.4 腹膜透析............................................4 2.1.5 透析中低血壓........................................4 2.2 無線傳輸技術發展......................................5 2.2.1 無線感測器網路......................................6 2.2.2 無線感測器網路架構及特點...........................12 2.2.3 無線通訊技術介紹...................................13 2.2.4 GSM無線通訊技術....................................17 2.3 WSN應用的可行性......................................22 2.3.1 遠距醫療照護.......................................22 2.3.1.1 社區式遠距照護...................................22 2.3.1.2 居家式遠距照護...................................23 2.3.1.3 機構式遠距照護...................................23 2.3.1.4 透析問題與遠距醫療照護...........................23 2.3.2 無線感測器網路應用於遠距醫療照護...................24 2.3.3 無線感測器傳輸效能相關研究.........................26 第三章　研究方法.........................................27 3.1 實驗材料與實驗設計...................................28 3.1.1 無線生理值感測硬體.................................28 3.1.2 主控平臺資料處理機制...............................30 3.2 系統效能分析與驗證方法...............................32 3.2.1 硬體穩定度分析.....................................34 3.2.1.1 無線感測器與個人電腦閘道器傳輸效能驗證方法.......34 3.2.1.2 無線感測器與簡訊處理伺服器傳輸效能驗證方法.......34 3.2.2 系統軟體分析.......................................35 3.2.2.1 個人電腦閘道器通報系統驗證方法...................35 3.2.2.2 資料庫伺服器與網頁瀏覽效能驗證方法...............36 3.2.3 全系統信度分析方法.................................36 3.3 主控平臺端監測程式...................................38 3.3.1 PC-based gateway主控平臺...........................39 3.3.1.1 生理值監測模式設定...............................46 3.3.1.2 量測ERROR情況處理................................47 3.3.1.3 人性化簡易瀏覽生理值資訊界面.....................48 3.3.2 伺服器主控平臺.....................................49 3.3.3 資料庫系統查詢.....................................50 3.3.4 居家生理值監測以及警戒值通知系統...................53 第四章　結果與討論.......................................55 4.1 無線感測器與個人電腦閘道器傳輸效能驗證...............55 4.1.1 單具生理值監測模組與個人電腦閘道器溝通.............55 4.1.2 五具生理值監測模組與個人電腦閘道器溝通.............56 4.2 無線感測器與簡訊處理伺服器傳輸效能驗證...............57 4.2.1 單人於固定空間透析中生理值監測模擬.................57 4.2.2 六人於固定空間透析中生理值監測模擬.................57 4.3 個人電腦閘道器通報系統驗證...........................58 4.4 資料庫伺服器與網頁瀏覽效能驗證.......................59 4.5 全系統信度分析.......................................61 第五章　結論與未來工作...................................63 參考文獻.................................................65 附錄一...................................................71 附錄二...................................................72 附錄三...................................................74 附錄四...................................................75 附錄五...................................................77
dc.language.iso	zh-TW
dc.subject	透析中低血壓	zh_TW
dc.subject	無線感測器網路	zh_TW
dc.subject	血液透析	zh_TW
dc.subject	全球行動通訊系統	zh_TW
dc.subject	數據資料庫	zh_TW
dc.subject	MySQL database	en
dc.subject	Hemodialysis	en
dc.subject	Intradialytic hypotension	en
dc.subject	Global systems for mobile communications	en
dc.subject	Wireless sensor networks	en
dc.title	運用無線感測器網路於血液透析中心的病患生理值監測	zh_TW
dc.title	Vital Signs Monitoring of Patients in a Hemodialysis Center Using Wireless Sensor Networks	en
dc.type	Thesis
dc.date.schoolyear	97-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	李仁貴,曾傳蘆,王永鐘
dc.subject.keyword	透析中低血壓,血液透析,無線感測器網路,全球行動通訊系統,數據資料庫,	zh_TW
dc.subject.keyword	Intradialytic hypotension,Hemodialysis,Wireless sensor networks,Global systems for mobile communications,MySQL database,	en
dc.relation.page	79
dc.rights.note	有償授權
dc.date.accepted	2009-08-18
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	生物產業機電工程學研究所	zh_TW
顯示於系所單位：	生物機電工程學系

文件中的檔案：

檔案	大小	格式
ntu-98-1.pdf 未授權公開取用	3.48 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。