應用固定式磁感應補償系統於穴道之量測

Tsan-Ming Fang; 方贊銘

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/55369

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳兆勛
dc.contributor.author	Tsan-Ming Fang	en
dc.contributor.author	方贊銘	zh_TW
dc.date.accessioned	2021-06-16T03:58:52Z	-
dc.date.available	2018-02-04
dc.date.copyright	2015-02-04
dc.date.issued	2014
dc.date.submitted	2014-11-26
dc.identifier.citation	[1] 廖志曄, '非侵入式葡萄糖濃度量測技術之研究,' 臺灣大學應用力學研究所學位論文, 2004. [2] M. Michael R. Holtel, 'Emerging Technology in Head and Neck Ultrasonography' 2010. [3] 林文建, 吳明珠, '經絡研究的進展,' 中國中醫臨床醫學雜誌, vol. 10, pp. 338-344, 2004. [4] 王淑友, 张栋, 朱元根, 马惠敏, 叶燕燕, 李顺月, '穴位温度与电阻相关关系的研究,' 辽宁中医杂志, vol. 34, pp. 5-6, 2007. [5] M. Aird, D. M. Cobbin, and C. Rogers, 'A study of the relative precision of acupoint location methods,' The Journal of Alternative & Complementary Medicine, vol. 8, pp. 635-642, 2002. [6] M. Aird, M. Coyle, D. Cobbin, and C. Zaslawski, 'A study of the comparative accuracy of two methods of locating acupuncture points,' Acupuncture in Medicine, vol. 18, pp. 15-21, 2000. [7] W. E. Rivers and F. Zollman, 'Reliability of surface acupuncture point location,' Medical Acupuncture, vol. 25, pp. 134-140, 2013. [8] R. Voll, 'Twenty years of electroacupuncture diagnosis in Germany. A progress report,' Am J Acupunct, vol. 3, pp. 7-17, 1975. [9] L. A. Rosenthal, 'Metal detector,' ed: US Patent 3,065,412, 1962. [10] G. A. Gallant, 'Eddy current sensor,' ed: Google Patents, 1976. [11] C.-Y. Lin, 'The Design of Diode Laser Acupuncture with Cupping Function and Its Effect on Back Pain,' Bio-Medical Engineering, 2005. [12] R. P. Henderson and J. G. Webster, 'An impedance camera for spatially specific measurements of the thorax,' Biomedical Engineering, IEEE Transactions on, pp. 250-254, 1978. [13] S. Watson, A. Morris, R. Williams, H. Griffiths, and W. Gough, 'A primary field compensation scheme for planar array magnetic induction tomography,' Physiological measurement, vol. 25, p. 271, 2004. [14] T.-C. Hsieh, 'The Design of Impedance Sensor for Contactless Measurement Systems,' Master Thesis, Department of Electrical Engineering, National Central University, Taiwan, 2006. [15] P. P. Tarjan and R. McFee, 'Electrodeless measurements of the effective resistivity of the human torso and head by magnetic induction,' Biomedical Engineering, IEEE Transactions on, pp. 266-278, 1968. [16] E. H. Y. Ng, W. S. So, J. Gao, Y. Y. Wong, and P. C. Ho, 'The role of acupuncture in the management of subfertility,' Fertility and sterility, vol. 90, pp. 1-13, 2008. [17] G.-J. Wang, M. H. Ayati, and W.-B. Zhang, 'Meridian studies in China: a systematic review,' Journal of Acupuncture and Meridian Studies, vol. 3, pp. 1-9, 2010. [18] S. X. Ma, X. Y. Li, B. T. Smith, and N. T. Jou, 'Changes in nitric oxide, cGMP, and nitrotyrosine concentrations over skin along the meridians in obese subjects,' Obesity, vol. 19, pp. 1560-1567, 2011. [19] A. C. Ahn and O. G. Martinsen, 'Electrical characterization of acupuncture points: technical issues and challenges,' The journal of alternative and complementary medicine, vol. 13, pp. 817-824, 2007. [20] Y. M. Wong, 'Electrical Property of Acupoints,' The Journal of Alternative and Complementary Medicine, vol. 20, pp. 145-146, 2014. [21] M. Teplan, M. Kukučka, and A. Ondrejkovičova, 'Impedance analysis of acupuncture points and pathways,' in Journal of Physics: Conference Series, 2011, p. 012034. [22] '中華針灸.' [23] 杨继洲, '針灸大成'人民卫生出版社,vol. 18, 1994. [24] 賴沅琬, '以良導絡測定評估遠紅外線對人體健康之影響,' 成功大學電機工程學系學位論文 , 2003. [25] 劉麗姿, '探討經絡刺激對退化性膝關節炎患者之成效,' 國立台北護理學院中西醫結合護理研究所,2008. [26] 劉澄中,張永賢, '經脈醫學與經絡攀登,' 中華針灸醫學會雜誌, pp. 5-18, 2003. [27] C.-L. Zhang, 'Skin resistance vs body conductivity: on the background of electronic measurement on skin,' Frontier Perspectives, vol. 11, pp. 15-25, 2002. [28] 周沛華, '經絡腧穴與周圍神經的關系,' 全國針灸針麻學術討論會, 1979. [29] 王啟才、高俊雄, '經絡的研究及臨床應用:' 中醫古籍出版社, 1998. [30] J. Rosell, J. Colominas, P. Riu, R. Pallas-Areny, and J. G. Webster, 'Skin impedance from 1 Hz to 1 MHz,' Biomedical Engineering, IEEE Transactions on, vol. 35, pp. 649-651, 1988. [31] Y.-T. Tsai, 'The Contactless Imaging System for the Conductivity of Biological Tissues,' National Central University ,2007. [32] P. J. Basser and D. K. Jones, 'Diffusion‐tensor MRI: theory, experimental design and data analysis–a technical review,' NMR in Biomedicine, vol. 15, pp. 456-467, 2002. [33] T. Reese, O. Heid, R. Weisskoff, and V. Wedeen, 'Reduction of eddy‐current‐induced distortion in diffusion MRI using a twice‐refocused spin echo,' Magnetic Resonance in Medicine, vol. 49, pp. 177-182, 2003. [34] H. C. Miller, 'Inductance formula for a single-layer circular coil,' Proceedings of the IEEE, vol. 75, pp. 256-257, 1987. [35] 莊永全, '渦電流位移感測器之設計與多自由度位移系統之特性研究,' National Taiwan University, 2002. [36] R. Pallas-Areny and J. G. Webster, 'Sensors and signal conditioning': Wiley, 2001. [37] J. M. Buckley, 'An introduction to Eddy Current Testing theory and technology,' http://joe.buckley.net/papers, vol. 8, p. 7, 2003. [38] P. Jehenson, M. Westphal, and N. Schuff, 'Analytical method for the compensation of eddy-current effects induced by pulsed magnetic field gradients in NMR systems,' Journal of Magnetic Resonance (1969), vol. 90, pp. 264-278, 1990. [39] G. Tian, Z. Zhao, and R. Baines, 'The research of inhomogeneity in eddy current sensors,' Sensors and Actuators A: physical, vol. 69, pp. 148-151, 1998. [40] B. U. Karbeyaz and N. G. Gencer, 'Electrical conductivity imaging via contactless measurements: an experimental study,' Medical Imaging, IEEE Transactions on, vol. 22, pp. 627-635, 2003. [41] J. Tripp, 'Physical concepts and mathematical models,' in Biomagnetism, ed: Springer, 1983, pp. 101-139. [42] 林清凉, 戴念祖, '電磁學: 宏觀電磁學, 光學和狹義相對論': 五南圖書出版股份有限公司, 2004. [43] B. Brown, 'Electrical impedance tomography (EIT): a review,' Journal of medical engineering & technology, vol. 27, pp. 97-108, 2003. [44] J. G. Webster, Electrical impedance tomography: Taylor & Francis Group, 1990. [45] T. Instruments, 'Datasheet of INA131 '. [46] M. Meade, 'Advances in lock-in amplifiers,' Journal of Physics E: Scientific Instruments, vol. 15, p. 395, 1982. [47] T. Instruments, Datasheet of MPY634 2004. [48] P. Horowitz, W. Hill, and T. C. Hayes, The art of electronics vol. 2: Cambridge university press Cambridge, 1989. [49] U. Tietze, C. Schenk, and E. Schmid, Electronic circuits: Springer, 1991. [50] R. Holzel, 'A simple wide-band sine wave quadrature oscillator,' IEEE Transactions on Instrumentation and Measurement, vol. 42, pp. 758-760, 1993. [51] W. D. Stanley, 'Operational amplifiers with linear integrated circuits:' Prentice Hall, 2002. [52] T. B. Greenslade, 'All about Lissajous Figures,' Physics Teacher, vol. 31, pp. 364-70, 1993. [53] P. Jasselette and J. Vandermeulen, 'More on Lissajous figures,' American Journal of Physics, vol. 54, pp. 182-183, 1986. [54] T. P., 'Lissajous figures, Lab 1: Introduction to Instrumentation, ECE 209: Circuits and Electronics Laboratory,' 2007. [55] E. Tong, 'Lissajous figures,' The Physics Teacher, vol. 35, pp. 491-493, 1997. [56] T. Instruments, 'Analysis of the Sallen-Key Architecture,' Application Report, 2002. [57] W.-K. Chen, 'The circuits and filters handbook:' CRC Press, 2002. [58] F. Sandoval-Ibarra, M. Cuesta-Claros, R. Moreno-Espinosa, E. Ortiz-Levy, and L. Palacios-Betancourt, 'Design of 2nd order low-pass active filters by preserving the physical meaning of design variables,' Revista mexicana de fisica E, vol. 57, pp. 1-10, 2011.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/55369	-
dc.description.abstract	在中醫的範疇中，人體由許多經絡貫穿而成，以氣血運行的方式來營運整個身體，而經絡上有許多穴道點，本研究利用渦電流磁感應對穴道點的激發及接收方式，去觀察皮膚經絡的穴位點。渦電流磁感應補償系統參考以三軸正交磁芯線圈、穴道訊號處理電路及DAQ卡電腦組成。穴道點所回饋的渦電流大小轉換成感應電動勢，將被用來觀察經絡彼此間的關係。首先對於皮膚穴道做感應，接著比較同條經絡上穴道間的關係，再以各經絡的原穴點互相比較趨勢，在幾次量測下發現原穴點間有對應關係。而後用雷射針灸照射穴道，以本系統觀察穴道點回饋電壓值的變化，在實施雷射針灸後，接受到的電壓有明顯迅速得變化。最後飲用熱薑湯做前後的觀察量測。以本人經過參考配置的量測系統偵測人體皮膚穴道實為不易，容易被外界雜訊干擾及不穩定的因素影響訊號的品質，必須在固定的情況下量測及調整系統的偵測狀態，特別是針對輸入電壓及頻率，以及探頭固定和連接線擺置做為校整的目標；在雷射針灸前後觀察得到的電壓值變化、比對各條經絡的穴位相對關係、飲用熱薑湯觀察前後穴位所回饋的電壓值變化。	zh_TW
dc.description.abstract	Theory of Acupuncture point, which is the one of Chinese medicine theory, is used to physical diagnosis and physical treatment. It analyze disease and omen of people by taking their characteristic, which is personal physical, and comparing with different energy of acupuncture points. There are many methods to locate the Acupuncture point. , .The Magnetic Induction Compensation System (MICS) change the method of measure and cut down effect of personals and surroundings. MICS is organized by three orthogonal magnetic coil, signal of acupuncture point process circuit and DAQ-Card with computer. We get change of voltage which come from the eddy current in sample to show the energy of acupuncture points. Change of voltage is positive correlation with energy in points. In this case, we observe these points by MICS. First, we get the information of voltage from the some important Acupuncture points and contrast these voltage of the points with each other. Second, we use laser acupuncture, which is kind of Chinese medicine therapy in acupuncture points, to care our body. We also use MICS to measure the acupuncture points which is related the irradiated points before and after irradiating. Third, we drink hot ginger soup and use MICS to observe acupuncture point of lung. The system we made has some limitation for using. There are many operating factor to affect output signal such as amplitude, frequency and IC quality. We should fix the sensor and wire. If we move the sensor or wire when using instrument, voltage signal can be affected. The cable, which is connect sensor to the circuit, finally is a problem we cannot solve. So, we operate MICS on stable setting and acupuncture points is close to the sensor.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T03:58:52Z (GMT). No. of bitstreams: 1 ntu-103-R01543051-1.pdf: 8498384 bytes, checksum: c83bc1ed0aea5a0709931bfce2511a32 (MD5) Previous issue date: 2014	en
dc.description.tableofcontents	口試委員會審定書 # 致謝 i 中文摘要 ii ABSTRACT iii 目錄 iv 圖目錄 vi 表目錄 ix 第 1 章緒論 1 1.1 研究動機與目的 1 1.2 研究背景及文獻回顧 2 1.3 論文架構 3 第 2 章經絡理論 5 2.1 經絡 5 第 3 章固定式磁感應補償量測系統 12 3.1 磁感應探頭原理 12 3.1.1 渦電流(Eddy Current) 12 3.1.2 磁感測探頭設計 17 3.2 生物訊號與穴道訊號處理電路架構 23 3.2.1 穴位訊號處理電路架構 23 3.2.2 儀表放大器與訊號擷取卡 24 3.3 Lock-In System 原理與設計 25 3.3.1 Lock-In System 25 3.3.2 乘法器(Multiplier) 29 3.3.3 相位移電路(Phase Shifter) 32 3.3.4 Sallen-Key低通濾波器電路(Sallen-Key Low-Pass Filter) 38 第 4 章實驗方法設計與結果 43 4.1 未經穴道訊號處理電路的電壓輸出結果 43 4.2 人體穴道點感應偵測 45 4.3 雷射針灸後之穴道氣血運行變化 57 4.4 飲用熱薑湯實驗 61 第 5 章結論與未來工作 68 參考文獻 70 附錄 73
dc.language.iso	zh-TW
dc.subject	磁感應探頭	zh_TW
dc.subject	經絡穴道	zh_TW
dc.subject	渦電流	zh_TW
dc.subject	經絡現象	zh_TW
dc.subject	雷射針灸	zh_TW
dc.subject	Induction	en
dc.subject	Eddy current	en
dc.subject	laser acupuncture	en
dc.subject	Magnetic	en
dc.subject	Acupuncture	en
dc.title	應用固定式磁感應補償系統於穴道之量測	zh_TW
dc.title	Acupuncture Point Observation with Fixed Magnetic Induction Compensation System	en
dc.type	Thesis
dc.date.schoolyear	103-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	蔡明義,鄭江河
dc.subject.keyword	磁感應探頭,經絡穴道,渦電流,經絡現象,雷射針灸,	zh_TW
dc.subject.keyword	Magnetic,Induction,Acupuncture,Eddy current,laser acupuncture,	en
dc.relation.page	73
dc.rights.note	有償授權
dc.date.accepted	2014-11-26
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	應用力學研究所	zh_TW
顯示於系所單位：	應用力學研究所

文件中的檔案：

檔案	大小	格式
ntu-103-1.pdf 未授權公開取用	8.3 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。