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萬書言 教授 (企研所合聘)

長庚大學資管系

姓名:萬書言
職稱:教授
分機:(03)2118800 轉 5819
信箱:sywan@mail.cgu.edu.tw
個人網頁:http://www.sedona.bz/members/Shu-Yen
學歷:賓州州立大學電腦科學暨工程博士
專長領域:醫學影像、電腦視覺、生物資訊、影像處理 
實驗室:生醫資訊與圖學 (Biomedical Informatics & Graphics)


經歷:

2016-迄今 長庚紀念醫院整形外科合聘研究員
2016-迄今 明志科技大學合聘教授
2016-迄今 長庚大學校訊編輯委員
2015-迄今 長庚大學管理學院企業管理研究所(博士班)所長
2015-迄今 長庚大學銀髮產業發展與研究中心主任
2015-迄今 長庚大學管理學院 AACSB 共同召集人
2014-迄今 長庚大學資訊管理學系教授
2014-迄今 Editorial board of International Journal of Orthopaedics
2013-2015 長庚大學學務處就業服務暨僑外生輔導組組長
2013-2015 長庚大學校友業務會議兼校友通訊召集人
2010-2015 長庚大學人體生物資料庫資訊組組長
2007-2014 長庚大學資訊管理學系副教授
2007-2011 長庚大學資訊管理學系系主任 (所長)
2003-2008 長庚大學學務處就業服務暨僑外生輔導組組長
2003-2007 長庚大學資訊工程學系副教授
2000-2003 長庚大學資訊管理學系助理教授
2000 (5月)-2000 (8月) 美國賓州立大學博士後研究
1998-2000 (5月) 美國賓州立大學電機學系研究助理

專業證照與專利:

  1. Project Management Professional (PMP)® (國際專案管理師), Effective 2015
  2. I595430, 萬書言、蔡佩穎、羅綸洲、張哲堯, 評估顏面整體對稱性的方法及評估系統, Effective Aug. 11th, 2017 - Dec. 6th, 2036
  3. I509539, Kun-Ju Lin, Shu-Yen Wan, Che-Yao Chang, Chung-Mei Fan, and Hsin-Ming Yu, “Method and Apparatus for Scheduling,” Effective Nov. 21st, 2015 - Jan. 29th, 2033.

教授課程

程式設計、影像處理、醫學影像、電腦圖學、系統分析與設計、專案管理、資管專業英文

研究計畫(計畫/子計畫主持人):

  1. Deep Facial Landmark Factorization on 3D Craniofacial asymmetry and Development of a Scalable Platform (三維顱顏不對稱的深臉部界標分解研究與可擴展平台之建立), PI: Shu-Yen Wan, Funds: NT$832,000; Sponsor: Ministry of Science and Technology  (科技部-MOST), Time Span: 08/01/2017~07/31/2018.
  2. Study on Perception of Facial Asymmetry (整合型三維電腦輔助正顎手術之臨床整合應用之子計畫六:顏面不對稱性感知的量化研究(1/3);三年期,第一年), CRRPD3G0011; PI: Shu-Yen Wan, Funds: NT$512,755; Sponsor: Chang Gung Memorial Hospital, Time Span: 01/01/2017~12/31/2017.
  3. Asymmetry of Three-Dimensional Craniofacial Images and Its Quantified Perception (三維顱顏影像不對稱性與其感知量化之研究), MOST 105-2221-E-182-013; PI: Shu-Yen Wan, Funds: NT$808,000; Sponsor: Ministry of Science and Technology (科技部-MOST), Time Span: 08/01/2016~10/31/2017.
  4. Establlishment of a Value-Added Center for Stroke Clinical Big Data and Study on Intelligent Medical Healthcare Models (1/2) (腦中風臨床大數據加值中心之建置暨智慧醫療照護模式研究:第一年), MOST 105-2632-H-182-001; Subprogram PI: Shu-Yen Wan, Funds: NT$3,020,000; Sponsor: Ministry of Technology (科技部-MOST-提升私校研發能量計畫), Time Span: 08/01/2016~07/31/2017.
  5. Study of Relations between Facial Attractiveness and Syntheses of Craniofacial Images (3/3) (整合型三維影像之電腦輔助正顎手術矯正模擬及術後顏面分析之子計畫三:容貌吸引力與三維顱顏影像合成關聯性之研究();三年期,第三年 ), CRRPD5C0253; PI: Shu-Yen Wan, Funds: NT$730,483; Sponsor: Chang Gung Memorial Hospital, Time Span: 01/01/2016~12/31/2016
  6. Study of Relations between Facial Attractiveness and Syntheses of Craniofacial Images (2/3) (整合型三維影像之電腦輔助正顎手術矯正模擬及術後顏面分析之子計畫三:容貌吸引力與三維顱顏影像合成關聯性之研究();三年期,第二年 ), CRRPD5C0252; PI: Shu-Yen Wan, Funds: NT$671,560; Sponsor: Chang Gung Memorial Hospital, Time Span: 01/01/2015~12/31/2015
  7. Disturbance Region Removal Based Craniofacial Registration of Stereo Photography and CBCT Images (干擾特徵移除於顱顏立體攝影與電腦斷層掃描影像合成之研究), MOST 103-2221-E-182-037; PI: Shu-Yen Wan, Funds: NT$733,000; Sponsor: Ministry of Technology (科技部-MOST), Time Span: 08/01/2014~07/31/2015.
  8. Study of Relations between Facial Attractiveness and Syntheses of Craniofacial Images (1/3) (整合型三維影像之電腦輔助正顎手術矯正模擬及術後顏面分析之子計畫三:容貌吸引力與三維顱顏影像合成關聯性之研究();三年期,第一年 ), CRRPD5C0251; PI: Shu-Yen Wan, Funds: NT$662,755; Sponsor: Chang Gung Memorial Hospital, Time Span: 01/01/2014~12/31/2014
  9. Facial Attractiveness Ontology Using 3D Craniofacial Morphable Synthesis (三維顱顏型變合成應用於探討容貌吸引力之研究), NSC-101-2221-E-182-013; PI: Shu-Yen Wan, Funds: NT$733,000, Sponsor: National Science Council, Taiwan, ROC. (國科會-NSC), Time Span: 08/01/2012~7/31/2013.
  10. On Three-Dimensional Reconstruction and Identification of Craniofacial Images: Development of a Software Platform (顱顏影像的三維模型重建與比對之研究與平台開發), NSC- 97-2221-E-182-037-MY3;PI: Shu-Yen Wan, Sponsor: National Science Council, Taiwan, R.O.C. (國科會- NSC), Time Span: 08/01/2008~7/31/2011.
  11. Collaboration of Symmetric Region Grow and Active Contouring: Theoretical Studies and Applications to Biomedical Imaging (結合對稱群域成長與動態輪廓模塑技術的理論研究與生醫影像的應用), NSC-96-2221-E-182-042;PI: Shu-Yen Wan, Sponsor: National Science Council, Taiwan, R.O.C. (國科會-NSC), Time Span: 08/01/2007~10/31/2008.
  12. Systems biology in bladder cancer: theories, clinical bioinformatics and applications – Component Project 7: Visualization and imaging approaches toward understanding of the organization and dynamics of gene regulatory networks in bladder cancer 1/3 (針對膀胱癌的系統生物學研究:包括理論、生物資訊及臨床應用 – 子計劃七:膀胱癌基因條控網路的拓蹼與動態建構之研究:植基於視覺話與影像處理技術 3/3), CMRPD33086-III, PI: Shu-Yen Wan, Sponsor: Chang Gung Memorial Hospital, Time Span: 9/1/2006~12/31/2007.
  13.   Symmetric Fuzzy-Connectedness Region Growing Segmentation (SymFC-RG): Theory and Application 2/2 (對稱型模糊連結群域成長影像分割技術(SymFC-RG)之理論與應用研究 2/2), NSC-95-2221-E-182-047;PI: Shu-Yen Wan, Sponsor: National Science Council, Taiwan, R.O.C. (國科會-NSC), Time Span: 08/01/2006~10/31/2007.
  14.   Systems biology in bladder cancer: theories, clinical bioinformatics and applications – Component Project 7: Visualization and imaging approaches toward understanding of the organization and dynamics of gene regulatory networks in bladder cancer 2/3 (針對膀胱癌的系統生物學研究:包括理論、生物資訊及臨床應用 – 子計劃七:膀胱癌基因條控網路的拓蹼與動態建構之研究:植基於視覺話與影像處理技術 2/3), CMRPD33086-II, PI: Shu-Yen Wan, Sponsor: Chang Gung Memorial Hospital, Time Span: 9/1/2005~8/31/2006.
  15.   Symmetric Fuzzy-Connectedness Region Growing Segmentation (SymFC-RG): Theory and Application 1/2 (對稱型模糊連結群域成長影像分割技術(SymFC-RG)之理論與應用研究 1/2), NSC-94-2213-E-182-018;PI: Shu-Yen Wan, Sponsor: National Science Council, Taiwan, R.O.C. (國科會-NSC), Time Span: 08/01/2005~7/31/2006.
  16.   Bioinformatics in Bladder Cancer: from Gene Expression to Bio- Clinical Decision Support System and Collaborative Platform – Component Project 5: Visualizing and predicting genetic predisposition of bladder cancer with the use of artificial intelligence and imaging algorithms 3/3 (生物資訊在膀胱癌的應用: 從基因表現到臨床決策支援系統及網路上的合作平台 – 子計劃五:以人工智慧與影像演算法視覺化並預測基因與膀胱癌的關係 3/3), CMRPD1010, PI: Shu-Yen Wan, Co-PI: Kwang-Hung Hsu, Sponsor: Chang Gung Memorial Hospital, Time Span: 12/01/2004~5/31/2005.
  17.   Gene-Cancer Relationships Prediction: Construction of Biomedical Platform Towards Microarray Data/Image Analysis, Mining, and Integration of Existing Visualization Tools 2/2 (基因與癌症關聯的預測:以膀胱癌為例建構微陣列影像分析、計量資料探勘、整合既有視覺化工具的生醫研究平台 2/2), NSC-93-2213-E-182-003;PI: Shu-Yen Wan, Sponsor: National Science Council, Taiwan, R.O.C. (國科會-NSC), Time Span: 08/01/2004~07/31/2005
  18.   Systems biology in bladder cancer: theories, clinical bioinformatics and applications – Component Project 7: Visualization and imaging approaches toward understanding of the organization and dynamics of gene regulatory networks in bladder cancer 1/3 (針對膀胱癌的系統生物學研究:包括理論、生物資訊及臨床應用 – 子計劃七:膀胱癌基因條控網路的拓蹼與動態建構之研究:植基於視覺話與影像處理技術 1/3), CMRPD33086-I, PI: Shu-Yen Wan, Sponsor: Chang Gung Memorial Hospital, Time Span: 9/1/2004~8/31/2005.
  19.   Bioinformatics in Bladder Cancer: from Gene Expression to Bio- Clinical Decision Support System and Collaborative Platform – Component Project 5: Visualizing and predicting genetic predisposition of bladder cancer with the use of artificial intelligence and imaging algorithms 2/3 (生物資訊在膀胱癌的應用: 從基因表現到臨床決策支援系統及網路上的合作平台 – 子計劃五:以人工智慧與影像演算法視覺化並預測基因與膀胱癌的關係 2/3), CMRPD1010, PI: Shu-Yen Wan, Co-PI: Kwang-Hung Hsu, Sponsor: Chang Gung Memorial Hospital, Time Span: 12/01/2003~11/30/2004.
  20.   Gene-Cancer Relationships Prediction: Construction of Biomedical Platform Towards Microarray Data/Image Analysis, Mining, and Integration of Existing Visualization Tools 1/2 (基因與癌症關聯的預測:以膀胱癌為例建構微陣列影像分析、計量資料探勘、整合既有視覺化工具的生醫研究平台 1/2), NSC-92-2213-E-182-012;PI: Shu-Yen Wan, Sponsor: National Science Council, Taiwan, R.O.C. (國科會-NSC), Time Span: 08/01/2003~11/30/2004.
  21.   Bioinformatics in Bladder Cancer: from Gene Expression to Bio- Clinical Decision Support System and Collaborative Platform – Component Project 5: Visualizing and predicting genetic predisposition of bladder cancer with the use of artificial intelligence and imaging algorithms 1/3 (生物資訊在膀胱癌的應用: 從基因表現到臨床決策支援系統及網路上的合作平台 – 子計劃五:以人工智慧與影像演算法視覺化並預測基因與膀胱癌的關係 1/3), CMRPD1010, PI: Shu-Yen Wan, Co-PI: Kwang-Hung Hsu, Sponsor: Chang Gung Memorial Hospital, Time Span: 12/01/2002~11/30/2003.
  22. Endoluminal Analysis and Surgical Path Planning for 3D Tubular Structures Using Unidirectional Region Grow (以對稱群域成長技術為基礎的三維管狀結構分析與手術路徑規劃之研究), NSC-91-2213-E-182-020;PI: Shu-Yen Wan, Sponsor: National Science Council, Taiwan, R.O.C. (國科會-NSC), Time Span: 08/01/2002~07/31/2003.
  23.   提升大學國際競爭力A計畫 – 長庚大學生物科技管理:分項計畫四,PI: Shu-Yen Wan, Sponsor: Ministry of Education, Taiwan, R.O.C., Time Span: 09/2002~08/2003.
  24.   虛擬教學個案之研究–以醫學影像網際網路教學為例 (2/4), 教育部提昇大學基礎教育計劃 H048; PI: Shu-Yen Wan, Sponsor: Ministry of Education, Taiwan, R.O.C., Time Span: 09/2002~08/2003.
  25.   虛擬教學個案之研究–以醫學影像網際網路教學為例 (1/4), 教育部提昇大學基礎教育計劃 H048; PI: Shu-Yen Wan, Sponsor: Ministry of Education, Taiwan, R.O.C., Time Span: 09/2001~08/2002.
  26. On Invariant Region-Growing Segmentation: Symmetric Region Growing – Its Property Analysis and Applications on Medical Imaging (不變異型群域成長之影像切割技術的研究:對稱性群域成長理論的特性分析及其在醫學影像的應用), NSC-90-2314-B-182-093, PI: Shu-Yen Wan, Sponsor: National Science Council, Taiwan, R.O.C. (國科會-NSC) and Chang Gung Memorial Hospital (長庚紀念醫院), Time Span: 08/01/2001~07/31/2002.
  27.   Extraction and Analysis of Vascular Structures in 3D CT Images – Design and Evaluation of An Integrated Medical Imaging System (三維醫學影像中血管網路資訊之萃取和分析 - 醫學影像處理系統之整合設計與評估), NSC-89-2314-B-182-147-M08, PI: Shu-Yen Wan, Sponsors: National Science Council, Taiwan, R.O.C. (國科會-NSC) and Chang Gung Memorial Hospital (長庚紀念醫院), Time Span: 12/01/2000~10/31/2001.
  28.   Multidisciplinary Micro CT 3-D Imaging Facility, NIH R01-RR11800, PI: Erik L. Ritman, MD., Ph.D., Mayo Clinic, Sponsor: National Institutes of Health (NIH), U.S.A., Time Span: 09/30/1999 - 09/29/2004.
  29. Synergisitic CT-Bronchoscopy for Lung-Cancer Assessment, NIH R01-CA74325, PI: William E. Higgins, Ph.D., Sponsor: National Institutes of Health (NIH), U.S.A., Time Span: 04/01/1997 - 03/31/2002.
  30. Multidisciplinary Micro CT 3-D Imaging Resource, NIH R01-RR11800, PI: Erik L. Ritman, MD., Ph.D., Mayo Clinic , Sponsor: National Institutes of Health (NIH), U.S.A., Time Span: 04/01/1997 - 03/31/2000.

期刊論文發表

  1. Shu-Yen Wan and Lun-Jou Lo, “Quantitative Assessment of Facial Asymmetry Using a neuro-MCDM model,” International Journal of Computer Assisted Radiology and Surgery, vol. 12, no. 1 (suppl.), pp. S165-S167, 2017. (SCI IF2015=1.827)
  2. Shu-Yen Wan, Pei-Ying Tsai, Yi-Ying Chen, and Lun-Jou Lo, “Tri-information and Classification of Perceived Craniofacial Asymmetry,” International Journal of Computer Assisted Radiology and Surgery, vol. 11, no. 1 (suppl.), pp. S138-S139, 2016. (SCI IF2014=1.707)
  3. Wen-Chung Chiang, Hsiu-Hsia Lin, Chiung-Shing Huang, Lun-Jou Lo, and Shu-Yen Wan*, “The Cluster Assessment of Facial Attractiveness Using Fuzzy Neural Network Classifier Based on 3D Moire Features,” Pattern Recognition, vol. 47, no. 3, pp. 1249-1260, 2014. DOI: 10.1016/j.patcog.2013.09.007. (SCI IF2012=2.63) (NSC-97-2221-E-182-037-MY3, NSC-101-2221-E-182-013) 
  4. Shu-Yen Wan, Che-Yao Chang, Chun-Ling Wang, and Kun-Ju Lin, “Stateless Two-Stage Multiple Criteria Scheduling in Nuclear Medicine," Mathematical Problems in Engineering, vol. 2014, article ID: 646249, 6 pages, 2014. DOI: 10.1155/2014/646249. (SCI IF2012=1.383) 
  5. Chung-Chih Yu, Shu-Yen Wan*, and Che-Yao Chang, “Commentary on ‘The labial aging process: a surface analysis based 3D evaluation’,” Aesthetic Plastic Surgery, vol. 38, no. 1, pp. 242-243, 2014. DOI: http://dx.doi.org/10.1007/s00266-013-0240-z (SCI IF2012=1.246)
  6. Shih-Wei Lin, Kuo-Ching Ying, and Shu-Yen Wan, “Minimizing the Total Service Time of Discrete Dynamic Berth Allocation Problem by an Iterated Greedy Heuristic,” Scientific World Journal, vol. 2014, article ID 218925, 12 pages, 2014. DOI: 10.1155/2014/218925 (SCI IF2013=1.219).
  7. Kuo-Ching Ying, Shih-Wei Lin, and Shu-Yen Wan, “Bi-objective Reentrant Hybrid Flowshop Scheduling: An Iterated Pareto Greedy Algorithm" International Journal of Production Research, vol. 52, no. 19, pp. 5735-5747, 2014. DOI: 10.1080/00207543.2014.910627. (SCI IF2012=1.460)
  8. Hsiu-Hsia Lin, Lun-Jou Lo, and Shu-Yen Wan, “Automatic Assessment of Facial Attractiveness pre and post Orthognathic Surgery Based on Quantitative 3D Shape Features,” International Journal of Computer Assisted Radiology and Surgery, vol. 2014, no. 9 (suppl.), pp. S189-S190, 2014.  (SCI IF2014=1.827)
  9. Shu-Yen Wan, “Analysis of Tubular Structures in 3-D CT Images Using Parallelizable Segmentation,” International Journal of Emerging Technology and Advanced Engineering, vol. 3, no. 12, pp. 291-296, 2013.
  10. Hsiu-Hsia Lin, Wen-Chung Chiang, Lun-Jou Lo, Sam Sheng-Pin Hsu, Chien-Hsuan Wang, and Shu-Yen Wan*, “Artifact-Resistant Superimposition of Digital Dental Models and Cone-Beam Computed Tomography Images,” Journal of Oral and Maxillofacial Surgery, vol. 71, no. 11, pp. 1933-1947, 2013. (SCI IF2012=1.33) (NSC-97-2221-E-182-037-MY3, NSC-101-2221-E-182-013)
  11. Hong-Wen Kao, Shih-Wei Lin, and Shu-Yen Wan, “Applying Decision Tree to Predict Nursing Turnover – A Case Study in a Public Hospital,” The Journal of Taiwan Association for Medical Informatics, vol. 21, no. 4, pp. 15-30, 2012. (NSC-97-2221-E-182-037-MY3).
  12. Chia-Fone Lee, Gen-Jia Li, Shu-Yen Wan, Wen-Jeng Lee, Kai-yuan Tzen, Chiung-Hsiang Chen, Yu-Lin Song, Yuan-Fang Chou, Yuh-Shyang Chen, and Tien-Chen Liu, “Registration of micro-CT and histology images of the guinea pig cochlea to construct ear model using iterative closest point algorithm,” Annals of Biomedical Engineering, vol. 38, no. 5, pp. 1719-1727, 2010. (SCI IF2012=2.605)(NSC-96-2221-E-182-042,NSC- 97-2221-E-182-037-MY3)
  13. Shu-Yen Wan and William E. Higgins, “Symmetric Region Growing,” IEEE Transactions on Image Processing, vol. 12, no. 9, pp. 1007-1015, 2003. (SCI IF2012=3.199)(NSC-90-2314-B-182-093)
  14. Jiann-Der Lee, Shu-Yen Wan, and Rui-Feng Wu, A Hybrid Compression Model for Clusters of Similar Medical Images,” Biomedical Engineering, Applications, Basis, and Communication, vol. 15, no. 1, pp. 38-45, Feb. 2003. (EI)
  15. Cherng-Min Ma, Shu-Yen Wan, and Jiann-Der Lee, “3D Topology Preserving Reduction on the 4-Subfields,” IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 24, no. 12, pp. 1594-1605, 2002. (SCI IF2012=4.795) (NSC89-2213-E-182-013)
  16. Shu-Yen Wan, Erik L. Ritman, and William E. Higgins, “Multi-generational Analysis and Visualization of the Vascular Tree in 3-D Micro-CT Images,” Computers in Biology and Medicine, vol. 32, no. 2, pp. 55-71, 2002. (SCI) (NSC-89-2314-B-182-147-M08) (SCI IF2012=1.162)
  17. Shu-Yen Wan, Cherng-Min Ma, Eric Nung, Chih-Wei Chen, and Chia-Yu Hsu,Development Of Embeddable Real-Time Image Analysis Assistant – Using Tubular Medical Images As The Example,” Journal of Taiwan Association for Medical Informatics, no. 15, pp. 1-16, Sept. 2002. (NSC-89-2314-B-182-147-M08; NSC-90-2314-B-182-093)
  18. Cherng-Min Ma, Shu-Yen Wan, and H.K. Chang,Extracting Medial Curves On 3D Images,” Pattern Recognition Letters, vol. 23, no. 8, pp. 895-904, 2002. (SCI IF2012=1.266) (NSC89-2213-E-182-013)
  19. Jiann-Der Lee, Shu-Yen Wan*, and Cherng-Min Ma, “Inter-Slice Interpolation of Anisotropic 3-D Medical Images Using Multi-resolution Contour Correlation,” in Medical Imaging 2002: Image Processing, Milan Sonka, J. Michael Fitzpatrick, Editors, Proceedings of SPIE Vol. 4684, pp. 1112-1122 (2002). (EI)
  20. Cherng-Min Ma and Shu-Yen Wan, “Thinning On 2D Gray-Level Images,” in Medical Imaging 2002: Image Processing, Milan Sonka, J. Michael Fitzpatrick, Editors, Proceedings of SPIE Vol. 4684, pp. 893-900 (2002). (EI) (NSC89-2213-E-182-013)
  21. Jiann-Der Lee, Shu-Yen Wan, and In-Kai Hung, “Design and Implementation of a PC-based Multimedia Biosignal integration system,” Biomedical Engineering, Applications, Basis, and Communication, vol. 13, No. 6, pp. 12-20, Dec. 2001. (EI)
  22. Cherng-Min Ma and Shu-Yen Wan, “A Medial-Surface Oriented 3-D Two-Subfield Thinning Algorithm,” Pattern Recognition Letters, vol. 22, no. 13, pp. 1439-1446, 2001. (SCI IF2012=1.266) (NSC89-2213-E-182-013)
  23. Shu-Yen Wan, Erik L. Ritman, and William E. Higgins, "(N)-furcation Analysis and Visualization of Large 3D Vascular Images," SPIE Medical Imaging 2001: Image Processing, Milan Sonka and Kenneth M. Hanson ed., SPIE Proceedings, vol. 4322, pp. 766-775, 2001. (EI)
  24. Shu-Yen Wan, Atilla P. Kiraly, Erik L. Ritman, and William E. Higgins, “Extraction of the Hepatic Vasculature in Rats Using 3D Micro-CT Images,” IEEE Transactions on Medical Imaging, vol. 19, no. 9, pp. 964-971, Sep. 2000. (SCI IF2012=4.027)
  25. Shu-Yen Wan, Cherng-Min Ma, Erik L. Ritman, and William E. Higgins, “Exploration of The Vascular Geometry in 3D CT Images,” Journal of Taiwan Association for Medical Informatics, no. 12, pp. 15-26, Dec. 2000. (NSC-89-2314-B-182-147-M08)
  26. Cherng-Min Ma and Shu-Yen Wan, “Parallel Thinning Algorithm on 3D (18,6) Binary Images,” Computer Vision and Image Understanding, vol. 80, no. 3, pp. 364-378, 2000. (SCI IF2012-1.232) 
  27. Shu-Yen Wan, Patricia E. Lund, Denise A. Reyes, Catherine, A. Seaman, William E. Higgins, and Erik L. Ritman, “Heterogeneity of Coronary Arterial Branching Geometry,” SPIE Medical Imaging 2000: Physiology and Function from Multidimensional Images, A. Clough and C.T. Chen eds., SPIE Proceedings, vol. 3978, pp. 515-520, 2000. (EI)
  28. Anthony J. Sherbondy, Atilla P. Kiraly, Allen L. Austin, James P. Helferty, Shu-Yen Wan, Janice Z Turlington, Tao Yang, Chao Zhang, Eric A. Hoffman, Geoffrey McLennan and W.E. Higgins, “Virtual Bronchoscopic Approach for Combining 3D CT and Endoscopic Video,” SPIE Medical Imaging 2000: Physiology and Function from Multidimensional Images, A. Clough and C.T. Chen ed., SPIE Proceedings, vol. 3978, pp. 104-116, 2000. (EI)
  29. W.E. Higgins, A.J. Sherbondy, J.P. Helferty, A.P. Kiraly, G. McLennan, E.A. Hoffman, A.L. Austin, J.Z. Turlington, and Shu-Yen Wan, “PC-based system for automated quantitative virtual bronchoscopy,” Radiology, vol. 213(P), Nov. 1999. (SCI 5.996)
  30. Shu-Yen Wan, Erik L. Ritman, and William E. Higgins, “Extraction and analysis of large vascular networks in 3D Micro CT images,” SPIE Medical Imaging 1999: Physiology and Function from Multidimensional Images, A. Clough and C.T. Chen, ed., SPIE Proceedings vol. 3660, pp. 322-334, 1999. (EI)
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