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Course title |
光學診斷技術
OPTICAL TECHNIQUES IN DIAGNOSIS |
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Semester |
96-2 |
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Designated for |
COLLEGE OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE GRADUATE INSTITUTE OF BIOMEDICAL ELECTRONICS AND BIOINFORNATICS |
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Instructor |
宋孔彬 |
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Curriculum Number |
BEBI7004 |
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Curriculum Identity Number |
945 M2900 |
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Class |
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Credits |
3 |
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Full/Half
Yr. |
Half |
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Required/
Elective |
Elective |
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Time |
Thursday 2,3,4(9:10~12:10) |
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Room |
明達203 |
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Remarks |
The upper limit of the number of students: 24. |
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Ceiba Web Server |
http://ceiba.ntu.edu.tw/962Opt_Diagnosis |
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Course introduction video |
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Table of Core Capabilities and Curriculum Planning |
Table of Core Capabilities and Curriculum Planning |
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Course Syllabus
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Please respect the intellectual property rights of others and do not copy any of the course information without permission
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Course Description |
使用光學方法可以達到非侵入式的量測,這點在醫學的診斷上尤其重要。本課程將介紹使用各種光譜技術,擷取與人體組織的生理與病理特性相關的資訊,進而達到協助醫學診斷(特別是癌症前期病變)的目的。 |
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Course Objective |
1.教授光在組織中傳遞的理論模型。
2.使學生熟悉Monte Carlo法,以數值模擬光在組織中的傳播。
3.使學生瞭解各種光譜技術的基本原理,以及達成疾病診斷的工作原理。
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Course Requirement |
學生需具備使用電腦軟體(例如C,Matlab)進行數值模擬的能力 |
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Student Workload (expected study time outside of class per week) |
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Office Hours |
Mon. 13:00~14:00
Tue. 11:00~12:00 |
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Designated reading |
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References |
1. "Optical-Thermal Response of Laser-irradiated Tissue", edited by Ashley J.
Welch and Martin J.C. van Gemert. New York: Plenum Press, 1995.
2. "Biomedical Photonics Handbook", edited by Tuan Vo-Dinh. Boca Raton, Fla.:
CRC Press, 2003.
3. "Biomedical Optics: Principles and Imaging", by Lihong V. Wang and Hsin-i Wu.
Wiley-Interscience, 2007. |
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Grading |
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No. |
Item |
% |
Explanations for the conditions |
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1. |
作業 |
50% |
Monte Carlo法,模擬光在組織中的傳遞 |
2. |
期末專題計畫書 |
10% |
專題題目、動機、重要性以及相關文獻探討 |
3. |
期末專題 |
40% |
利用作業所完成之數值模擬工具,應用於光學診斷系統之參數模擬與效能最佳化。 |
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|
Week |
Date |
Topic |
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第1週 |
02/21 |
Introduction |
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第2週 |
02/28 |
Holiday |
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第3週 |
03/06 |
Definitions and overview of tissue optics |
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第4週 |
03/13 |
Monte Carlo simulation #1: Absorption, scattering, and propagation of photons in tissue |
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第5週 |
03/20 |
Diffusion Theory of Light Transport #1 |
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第6週 |
03/27 |
Diffusion Theory of Light Transport #1 |
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第7週 |
04/03 |
Monte Carlo simulation #2: Grid structure and finite beams |
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第8週 |
04/10 |
Monte Carlo simulation #2 |
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第9週 |
04/17 |
Monte Carlo simulation #3: 1.Multi-layer tissue model. 2. Propagation of fluorescent light |
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第10週 |
04/24 |
Monte Carlo simulation #4: Use detectors to detect remitted photons. |
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第11週 |
05/01 |
Diffusion Theory of Light Transport #2 |
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第12週 |
05/08 |
Optical diagnostic methods: overview and light scattering spectroscopy |
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第13週 |
05/15 |
Diffuse reflectance spectroscopy |
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第14週 |
05/22 |
Fiber-optic probe geometry in reflectance spectroscopy |
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第15週 |
05/29 |
Polarized light reflectance spectroscopy |
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第16週 |
06/05 |
Monte Carlo in inverse models of diffuse reflectance spectroscopy |
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第17週 |
06/12 |
Project proposal presentation and discussion |