以數位影像相關法實現乳癌觸診裝置可行性分析

Yu-Ching Lin; 林玉青

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/76570

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	顏炳郎(Ping-Lang Yen)
dc.contributor.author	Yu-Ching Lin	en
dc.contributor.author	林玉青	zh_TW
dc.date.accessioned	2021-07-10T21:33:06Z	-
dc.date.available	2021-07-10T21:33:06Z	-
dc.date.copyright	2017-08-29
dc.date.issued	2017
dc.date.submitted	2017-07-19
dc.identifier.citation	BackmanD., JodoinA., PoonC., & Y. Mendis. (2010). The Use of Digital Image Correlation to Verify the Behavior of Fiber Metal Laminate Cylinders under Torsional Loading. ASTM International, 3, 頁 1-9. BartonB.Mary, HarrisRussel, & FletcherW.Suzanne. (1999). Does this patient has breast cancer? The screening clinical breast examination: Should it be done? How? JAMA, Vol.282, 頁 1270-1280. BergA.Wendie, GutierrezLorena, NessAiverS.Moriel, CarterBradfordW., BhargavanMythreyi, LewisS.Rebecca, & IoffeB.Olga. (2004). Diagnostic Accuracy of Mammography, Clinical Examination, US, and MR Imaging in Preoperative Assessment of Breast Cancer. Radiology, 頁 830-849. California Department of Public Health Cancer Detection Section Breast Expert Workgroup. (2013年7月). Breast Cancer Diagnostic Algorithms for Primary Care Providers. 2017年7月1日擷取自 The Quality Assurance Project (QAP): http://qap.sdsu.edu/index.html FormanDavid, & FerlayJacques. (2014). The global and regional burden of cancer. (Bernard W. StewartP. WildChristopher, 編者) World Cancer Report 2014, 16-52. JohnsonK.L. (1985). Contact Mechanics. Cambrige University Press. KalagerMette, ZelenMarvin, LangmarkFrøydis, & AdamiHans-Olov. (2010). Effect of Screening Mammography on Breast-Cancer Mortality in Norway. The new england journal of medicine, Vol.363(13), 頁 1203-1210. KrouskopTA., WheelerTM., KallelF., GarraBS., & HallT. (1998). The Elastic Moduli of Breast and Prostate Tissue Under Compression. Ultrasound image, 頁 151-159. LuH., & CaryD.P. (2000). Deformation Measurements by Digital Image Correlation: Implementation of a Second-order Displacement Gradient. Experimental Mechanics, Vol.40(4), 頁 393-400. MadjarH., & MendelsonB.E. (2008). The practice of breast ultrosound: techniques, findings, differential diagnosis. Thieme. McPhersonK, SteelMC, & DixonMJ. (2000年9月). ABC of Breast Diseases Breast cancer—epidemiology, risk factors, and genetics. BMJ Journals, 321, 頁 624-628. PetersH.W., RansonF.W., SuttonA.M., ChuC.T., & AndersonJ. (1983). Application Of Digital Correlation Methods To Rigid Body Mechanics. OPTICALE NGINERING, 頁 738-742. PetersW.H., & RansonW.F. (1982). Digital image techniques in experimental stress analysis., 頁 427-431. SamaniAbbas, ZubovitsJudit, & PlewesDonald. (2007). Elastic moduli of normal and pathological human breast tissues: an inversion-technique-based investigation of 169 samples. PHYSICS IN MEDICINE AND BIOLOGY, 頁 1565–1576. SonkaMilan, HlavacVaclav, & BoyleRoger. (2008). Image Processing, Analysis, and Machine Vision. Thomson. SuttonA.M., WoltersW.J., PetersW.H., RansonW.F., & McNeillS.R. (1983). Determination of displacement using an improved digital correlation method. image and vision computing, Vol.1(30), 頁 133-139. SuttonA.Michael, OrteuJean-Jose, & SchreierW.Hubert. (2009). Image Correlation for Shape, Motion and Deformation Measurement. Springer. SuttonAM, ChengMingqi, PetersH.W., ChaoJ.Y., & McNeillR.S. (1986). Application of an optimized digital correlation method to planar deformation analysis. image and vision computing, Vol.4(3), 頁 143-150. T.C ChuRanson, M.A. Sutton, W.H PetersW.F. (1985). Applications of Digital-Image-Correlation Techniques to Experimental Mechanics. Experimental Mechanics, 頁 232-244. T.C. ChuRanson, M.A. Sutton and W.H. PetersW.F. (1985). Applications of digital-image-correlation techniques to experimental mechanics. Experimental Mechanics, 頁 232-244. ThomasB.David, GaoLiDao, RayM.Roberta, WangWanWen, AllisonJ.Charlene, ChenLiangFan, . . . SelfG.Steven. (2002). Randomized Trial of Breast Self- Examination in Shanghai: Final Results. Journal of the National Cancer Institute, Vol.94(19), 頁 1445-1457. WellmanS.P. (1999). Tactile image. PhD dissertation. Harvard University. 范睿豪. (2012). 三維乳房腫瘤外型主成份分析應用於乳房腫瘤橫向探測實驗. 徐筱晴. (2015). 乳房腫瘤之形狀力學模型建立. 國民健康署. (2017). 癌症登記-線上互動查詢系統. 2017年7月1日擷取自癌症登記-線上互動查詢系統: https://cris.hpa.gov.tw
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/76570	-
dc.description.abstract	乳癌為全球女性發生人數最多的癌症疾病，且發生率持續上升，由統計資料可知乳癌的死亡率和發現期數息息相關，故早期診斷為乳癌防治的重要發展目標。在實驗室過去的研究中，已建立出一套結合超音波影像及力量感測器的乳房腫瘤形狀力學模型，此模型藉由機器學習方式預測腫瘤的生物力學特性，以此特性協助醫師做乳癌診斷。　　本研究應用數位影像相關法同時量測腫瘤外型及探頭與腫瘤之間的力學關係，將過去乳房腫瘤形狀力學模型所需的超音波設備及荷重元系統簡化至雙眼視覺模組，藉由此方法預期可以將腫瘤檢測以行動裝置執行，成為家用型醫療器材。　　本研究以驗證數位影像相關法是否能夠用以量測乳房腫瘤特性（腫瘤尺寸、腫瘤與周圍組織硬度比），系統中包含自製橡膠探頭、雙眼視覺，實驗結果可得知探頭的變形與乳房腫瘤的尺寸、硬度皆有正向的關係，並且能夠透過探頭面上各點變形的情形，透過其變型比例及梯度等影像的變化來判讀腫瘤狀況。	zh_TW
dc.description.abstract	Breast cancer is the most common cancer among women worldwide, and the incident continued to rise. From the statistics, breast cancer mortality is related to the cancer’s stage. Therefore, early detection in order to improve breast cancer outcome and survival remains the cornerstone of breast cancer control. In the past research in the laboratory, the breast tumor shape-biomechanical model that combined with ultrasound imaging and force sensors has been developed to predict the biomechanical properties of the tumor by machine learning. In this research, digital-imaging correlation method was used to measure tumor shape and the force reaction between the probe and the tumor. The ultrasound equipment and the load cell system needed in the past research were simplified to the binocular vision module. This method is expected to enable tumor detection to be performed as a mobile device and become a home type medical device. The system includes rubber probe, binocular vision. Experimental results can be informed that the deformation of the probe and breast tumor size, stiffness are positive relationship. Then, can read the tumor’s properties by the variants and gradient changes in the probe’s deformation image.	en
dc.description.provenance	Made available in DSpace on 2021-07-10T21:33:06Z (GMT). No. of bitstreams: 1 ntu-106-R04631027-1.pdf: 3034269 bytes, checksum: ab2629495f0f73216d1fe5a2cf489553 (MD5) Previous issue date: 2017	en
dc.description.tableofcontents	口試委員會審定書 i 中文摘要 ii 英文摘要 iii 目錄 iv 圖目錄 vi 表目錄 vii 第一章、前言 1 1.1研究動機 1 1.2文獻回顧 3 1.2.1 乳房腫瘤力學特性 3 1.2.2乳房腫瘤力學模型 5 1.2.3觸覺陣列感測器 6 1.2.4 數位影像相關法 7 1.3研究目的 7 1.4論文架構 8 第二章、數位影像相關法 9 2.1 數位影像相關法 9 2.2 變形與位移 10 2.3 二維數位影像相關法 12 2.3.1相關係數 13 2.3.2數值方法 14 2.4 三維數位影像相關法 15 第三章、材料與研究方法 18 3.1實驗設備 18 3.1.1 影像感測設備 18 3.1.2 接觸探頭 20 3.1.3移動平台 22 3.1.4乳房仿體 22 3.2數值模擬 25 第四章、實驗結果與討論 27 4.1實驗規劃 27 第五章、總結與未來展望 33 5.1總結 33 5.2未來展望 33 第六章、參考文獻 34
dc.language.iso	zh-TW
dc.title	以數位影像相關法實現乳癌觸診裝置可行性分析	zh_TW
dc.title	A Feasibility Study of Using Digital-Image Correlation Method on Breast Mass Palpation	en
dc.type	Thesis
dc.date.schoolyear	105-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	葉廷仁,林沛群,江佩穎
dc.subject.keyword	乳房腫瘤,數位影像相關法,生物力學特性,	zh_TW
dc.subject.keyword	Breast tumor,Digital-Imaging Correlation,Biomechanics property,	en
dc.relation.page	36
dc.identifier.doi	10.6342/NTU201701695
dc.rights.note	未授權
dc.date.accepted	2017-07-19
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

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