微型磁控內視鏡定位研究之改良

Hsuan-Chen Chen; 陳宣辰

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/68077

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	劉志文(Chih-Wen Liu)
dc.contributor.author	Hsuan-Chen Chen	en
dc.contributor.author	陳宣辰	zh_TW
dc.date.accessioned	2021-06-17T02:12:14Z	-
dc.date.available	2027-12-31
dc.date.copyright	2018-01-04
dc.date.issued	2017
dc.date.submitted	2017-12-28
dc.identifier.citation	參考文獻 [1] G. Ciuti, A. Menciassi, and P. Dario. Capsule endoscopy : From current achievement to open challenges. Biomedical Engineering, IEEE Reviews in 4:59-72,2011. [2] Federico Carpi and Hasan Shaheed. Grand challenges in magnetic capsule endosopy.Expert Rev Med Devices, 10(4):433-6,2013 [3] Gi-ShihLien, Chih-Wen Liu, Joe-Air Jiang, Cheng-Long Chuang, and Ming-Tsung Teng. Magnetic control system targeted for capsule endoscopic operations in the stomach –design, fabrication, and in vitro and ex vivo evaluations. Biomedical Engineering, IEEE Transactions on, 59(7):2068–2079, July 2012. [4] 以色列Given Imaging官方網站( http://www.givenimaging.com 2016/7/21 ) [5] M. Sendoh, A. Yamazaki, A. Chiba, M. Soma, K. Ishiyama, and K.-I. Arai. Spiral type magnetic micro actuators for medical applications. In icro-Nanomechatronics and Human Science, 2004 and The Fourth Symposium Micro-Nanomechatronics for Information-Based Society, 2004. Proceedings of the 2004 International Symposiumon, pages 319–324, Oct 2004. [6] A. Chiba, M. Sendoh, K. Ishiyama, and K. I. Arai. Moving of a Magnetic Actuator for a Capsule Endoscope in the Intestine of a Pig. Journal of The Magnetics Societyof Japan, 29:343–346, 2005. [7] A. Chiba, M. Sendoh, K. Ishiyama, Y. Suda, K. I. Arai, T. Komaru, and K. Shirato.Colon endoscope navigation by magnetic actuator and intestine observations.Journal of The Magnetics Society of Japan, 28:433–436, 2004. [8] http://www.didaktik.physik.uni-muenchen.de/elektronenbahnen/en/index.php [9] Gastone Ciuti, Pietro Valdastri, Arianna Menciassi, and Paolo Dario. Robotic magnetic steering and locomotion of capsule endoscope for diagnostic and surgical endoluminal procedures. Robotica, 28:199–207, 3 2010. [10] G Ciuti, R Donlin, P Valdastri, A Arezzo, A Menciassi, M Morino, P Dario, et al. Robotic versus manual control in magnetic steering of an endoscopic capsule. Endoscopy,42(2):148, 2010. [11] G. Ciuti, M. Salerno, G. Lucarini, P. Valdastri, A. Arezzo, A. Menciassi, M. Morino, and P. Dario. A comparative evaluation of control interfaces for a robotic-aided endoscopic capsule platform. Robotics, IEEE Transactions on, 28(2):534–538, April 2012. [12] Arthur W Mahoney1 and Jake J Abbott. 5-dof manipulation of a magnetic capsule in fluid using a single permanent magnet: Proof-of-concept for stomach endoscopy [13] A.W. Mahoney and J.J. Abbott. Generating rotating magnetic fields with a single permanent magnet for propulsion of untethered magnetic devices in a lumen. Robotics,IEEE Transactions on, 30(2):411–420, April 2014. [14] 張育豪.「可變磁場控制系統應用於胃部膠囊內視鏡之研製」2014年7月.國立台灣大學電機工程學研究所論文. [15] Totsu, Kentaro, Yoichi Haga, and Masayoshi Esashi. 'Three-axis magneto-impedance effect sensor system for detecting position and orientation of catheter tip.' Sensors and Actuators A: physical 111.2 (2004): 304-309. [16] Salerno, Marco, et al. 'A discrete-time localization method for capsule endoscopy based on on-board magnetic sensing.' Measurement Science and Technology 23.1 (2011): 015701. [17] Hu, Chao, Max Q-H. Meng, and Mrinal Mandal. 'Efficient magnetic localization and orientation technique for capsule endoscopy.' International Journal of Information Acquisition 2.01 (2005): 23-36. [18] Wang, Xiaona, Max QH Meng, and Chao Hu. 'A localization method using 3-axis magnetoresistive sensors for tracking of capsule endoscope.' Engineering in Medicine and Biology Society, 2006. EMBS'06. 28th Annual International Conference of the IEEE. IEEE, 2006. [19] Hu, Chao, Max QH Meng, and Mrinal Mandal. 'A linear algorithm for tracing magnet position and orientation by using three-axis magnetic sensors.' Magnetics, IEEE Transactions on 43.12 (2007): 4096-4101. [20] 金重勳. 磁性材料. 科學月刊, 289, 1 1989. [21] Griffiths, David Jeffrey, and Reed College. Introduction to electrodynamics. Vol. 3. Upper Saddle River, NJ: prentice Hall, 1999. [22] Stewart, James. Calculus: early transcendentals. Cengage Learning, 2010. [23] Nguyen-Schäfer, Hung, and Jan-Philip Schmidt. Tensor Analysis and Elementary Differential Geometry for Physicists and Engineers. Springer, 2014. [24] Marquardt, Donald W. 'An algorithm for least-squares estimation of nonlinear parameters.' Journal of the society for Industrial and Applied Mathematics 11.2 (1963): 431-441. [25] 成大資工 ( http://wiki.csie.ncku.edu.tw/embedded/I2C ) [26] Fong-Wen Huang. A Study of Magnetically Controlled Micro Endoscopy. Graduate institute of electrical engineering college of electrical engineering and computer science, national taiwan university master thesis. July, 2016.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/68077	-
dc.description.abstract	膠囊內視鏡在各種內視鏡研究中，具有諸多優勢。如非侵入式檢驗、無需麻醉、即時畫面且膠囊鏡頭主動受控、價格低廉可大量生產、對於病灶之檢查可更為精準等等。同時以磁場主動控制膠囊內視鏡，最具研究挑戰性以及前瞻性，目前與各國研究團隊之研究並駕齊驅。而本研究為微型磁控內視鏡定位研究之改良，主要在於如何精準定位出膠囊位置，與探討實際磁控內視鏡運作時，定位所發生的問題與解決方法，而使定位系統可以輔佐磁控平台。本系統延伸自本實驗室研究畢業生-黃豐文之研究，而進一步改良，使得原先單一磁鐵定位的系統，可提升到雙顆磁鐵的定位。同時進一步研究通訊方式，使系統速度提升，也研究硬體架構，使之性能上升價格下降。	zh_TW
dc.description.abstract	Among various kinds of endoscopic studies, the magnetic control capsule endoscopy(CE) has a number of advantages such as less-invasiveness, anesthesia-free procedure which can reduce patient`s uncomfortable during GI tract. Moreover, magnetic actuation can be utilized for real time steering the CE, and for accurately control the CE, adding magnetic localizing system while steering is considered. The research of magnetic control and localize of CE is in leading edge of this field. The focus of this study is on the improvement of the magnetic control CE, especially on how to accurately localize real time with CE and to explore and solve the problem during GI tract, and then feedback the information of position to magnetically controlled platform. This study is extended from Huang Fong-wen’s studies, and this research has upgraded the single-magnet localizing system to a dual-magnet localizing system. At the same time, the communications method is studied as well to boost the speed of this system. The hardware is ameliorated to better performance, and it`s also a low cost system.	en
dc.description.provenance	Made available in DSpace on 2021-06-17T02:12:14Z (GMT). No. of bitstreams: 1 ntu-106-R03543061-1.pdf: 7785480 bytes, checksum: 45efa4fd79e027b2c634cbb9de670c4f (MD5) Previous issue date: 2017	en
dc.description.tableofcontents	目錄中文摘要 i ABSTRACT ii 目錄 iii 圖目錄 vi 表目錄 xiv 第一章緒論 1 1-1 研究背景 1 1-2 研究動機 3 1-3 論文架構 4 第二章膠囊內視鏡系統與微型磁控內視鏡介紹 5 2-1 目前各界對於膠囊內視鏡的構想及研究概況 5 2-1-1 日本東北大學膠囊內視鏡磁場控制系統研究概況 6 2-1-2 義大利比薩大學研究概況 14 2-1-3 美國猶他大學對磁控膠囊方法的研究 20 2-1-4 台灣大學膠囊內視鏡磁場控制系統研究概況 24 第三章磁鐵定位的理論及其演算法 31 3-1 永久磁鐵材料的特性 31 3-1-1 最大導磁率(Maximum Permeability) 31 3-1-2 機械強度(Mechanic Intensity) 31 3-1-3 磁滯曲線(B-H curve) 32 3-1-4 磁偶極矩 35 3-2 磁鐵於空間中磁場理論式 37 3-3 非線性方程組的最小平方差解 44 3-4 空間磁場量測之水平校正 47 第四章實驗系統架構介紹與成果討論 52 4-1 硬體與軟體架構 52 4-1-1 I2C通訊協定 52 4-1-2 ARDUINO與LabVIEW 55 4-1-3 MPU-9250 陀螺儀、加速規、磁阻感測器 57 4-1-4 動態均值濾波器 60 4-1-5 TCA9548A 之 I2C 通訊擴展板 61 4-1-6 系統架構演進與探討 63 4-1-7 LabVIEW with MATLAB 65 4-1-8 大磁鐵與感測器機構設計 66 4-2 實驗結果 68 4-2-1 雙磁鐵吸引力量測 70 4-2-2 雙磁鐵吸引力矩量測 72 4-2-3 固定式MPU-9250磁感測器陣列之單磁鐵定位 74 4-2-4 移動式MPU-9250感測器陣列之單磁鐵定位 80 4-2-5 固定式MPU-9250感測器陣列之雙磁鐵定位 86 4-2-6 移動式MPU-9250感測器陣列之雙磁鐵定位 93 第五章結論與未來工作 100 5-1 結論 100 5-2 未來工作 101 5-2-1 單旋轉磁鐵定位測量 101 5-2-2 雙旋轉磁鐵定位測量 102 參考文獻 103
dc.language.iso	zh-TW
dc.title	微型磁控內視鏡定位研究之改良	zh_TW
dc.title	A Study of Magnetically Controlled Micro Endoscopy Improvement	en
dc.type	Thesis
dc.date.schoolyear	106-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	連吉時(Gi-Shih Lien),粟發滿(Fat-Moon Suk)
dc.subject.keyword	磁控式系統,微型磁控內視鏡,膠囊內視鏡,磁阻效應,磁定位,	zh_TW
dc.subject.keyword	magnetic control cpapsule endoscopy,magnetoresistive effect,magnet location,Capsule endoscopy,	en
dc.relation.page	106
dc.identifier.doi	10.6342/NTU201704515
dc.rights.note	有償授權
dc.date.accepted	2017-12-28
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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