研究生: |
林宗翰 ZONG-HAN LIN |
---|---|
論文名稱: |
建立結合修正式FUZZY DANP之修正式FUZZY VIKOR法並應用於牙科燈 改善方案評選及改善設計 Establishment of a method combining modified fuzzy DANP with modified fuzzy VIKOR for improvement project selection and improved design of dental light |
指導教授: |
林榮慶
Zone-Ching Lin |
口試委員: |
王國雄
Kuo-Shong Wang 許覺良 Jue-Liang Xu 傅光華 Kuang-Hua Fuh 成維華 Wei-Hua Chieng |
學位類別: |
碩士 Master |
系所名稱: |
工程學院 - 機械工程系 Department of Mechanical Engineering |
論文出版年: | 2019 |
畢業學年度: | 107 |
語文別: | 中文 |
論文頁數: | 230 |
中文關鍵詞: | 牙科燈 、技術/功能矩陣 、修正式FUZZY DANP 、修正式FUZZY VIKOR 、修正式TRIZ |
外文關鍵詞: | dental light, technical/functional matrix, modified fuzzy DANP, modified fuzzy VIKOR, modified TRIZ |
相關次數: | 點閱:304 下載:0 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
[1] Holonyak, J. N. and Bevacqua, S. F., “Coherent (visible) Light
Emission from Ga (As1-xPx) Junctions,” Applied Physics Letters, Vol.1, Issue 4, pp.82-83 (1962).
[2] Steigerwald, D. A., Bhat, J. C., Collins, D., Fletcher, R. M., Holcomb,
M. O., Ludowise, M. J., Martin, P. S., and Rudaz, S. L., “Illumination with Solid State Lighting Technology,” IEEE Journal of Selected Topics in Quantum Electronics, Vol.8, Issue 2, pp.310-320 (2002).
[3] McGlen, R. J., Jachuck, R. and Lin, S., “Integrated Thermal
Management Techniques for High Power Electronic Devices,” Applied Thermal Engineering, Vol.24, Issue 8-9, pp.1143-1156 (2004).
[4] Jang, D., Yu, S. H., and Lee, K. S., “Multidisciplinary Optimization of a Pin-fin Radial Heat Sink for LED Lighting Applications,” International Journal of Heat and Mass Transfer, Vol.55, Issue 4,pp.515-521 (2012).
[5] Culham, J. R. and Muzychka, Y. S., “Optimization of Plate Fin Heat Sinks Using Entropy Generation Minimization,” IEEE Transactions on Components and Packaging Technologies, Vol.24, pp.159-165(2001).
[6] 沈峰民,適用於發光二極體照明設備之調光電路與控制方法,台灣發明專利,I434616 (2014)。
[7] 黃献隆,廣角照射LED燈具構造,台灣發明專利,M389809 (2010)。
[8] 劉岳樺,軌道燈裝置,台灣發明專利,TWM469430U (2014)。
[9] Wachter, P. F., “Adjustable connector for track lighting fixture,” 美國
專利, US05788518 (1998).
[10] Rose, E. P., Hayman, R. and Karten, S.,,牙科應用之照明系統,台灣發明專利,TW200614968 (2005)。
[11] 謝其昌、李彥輝、唐誠燦,牙科燈之反光罩,台灣發明專利,TWi503506 (2013)。
[12] Greppin, E. H., “Dental operating lamp construction,” 美國專利, US2437516 (1948).
[13] Thomas, L. H., Wedell, M. and Spencer, J. W., “LED-BASED DENTAL EXAM LAMP,” 美國專利, US20180347800 (2018).
[14] 鄭振興,「利用知識工程技術進行支撐結構設計評估與設計改善之研究」,國立台灣科技大學機械工程學系,博士論文,台北,民國一百年。
[15] 黃浩誠,「應用改良之TRIZ理論結合QFD於補償式化學機械拋光終點偵測及補償路徑之改善」,國立台灣科技大學機械工程學系,碩士論文,台北,民國九十六年。
[16] Tong, L. H. and Cong, H., “Grouping of TRIZ Inventive Principles to
facilitate automatic patent classification,” Expert Systems with Applications, Vol.34, pp.788-795 (2008).
[17] Yang, C. J., Chen, J. L., “Accelerating preliminary eco-innovation design for products that integrates case-based reasoning and TRIZ method,” Journal of Cleaner Production, Vol.19, pp.998-1006 (2011).
[18] Chang, H. T. and Chen, J. L., “The conflict-problem-solving CAD software integrating TRIZ into eco-innovation,” Advances in Engineering Software, Vol.35, Issue 8-9, pp.553-566 (2004).
[19] Petković, D., Issa, M., Pavlović, N. D. and Zentner, L., “Application
of the TRIZ creativity enhancement approach to design of passively
compliant robotic joint,” International Journal of Advanced Manufacturing
Technology,” Vol.67, Issue 1-4, pp.865-875 (2013).
[20] O’Leary, D. E., “Enterprise Knowledge Management,” IEEE Computer, Vol.31, pp.54-61 (1998).
[21] 杜家宏,「整合繁體和簡體中文及英文斷詞斷字系統之發光二極體檯燈專利分析研究」,碩士論文,國立台灣科技大學機械工程學系,台北,民國一百年。
[22] Wu, W. W. and Lee, Y. T., “Developing Global Managers’ Competencies Using the Fuzzy DEMATEL Method,” Expert Systems with Applications, Vol.32, pp.499-507 (2007).
[23] Tuzkaya, U. R. and Önüt, S., “A fuzzy analytic network process based approach to transportation-mode selection between Turkey and Germany: A case study,” Information Sciences, Vol.178, pp.3133-3146 (2008).
[24] Ayag, Z., Özdemir, R. G., “A hybrid approach to concept selection
through fuzzy analytic network process,” Computers and Industrial
Engineering, Vol.56, pp.368-379 (2009).
[25] Uygun, Ö. and Dede, A., “Performance evaluation of green supply
chain management using integrated fuzzy multi-criteria decision making
techniques,” Computers & Industrial Engineering, Vol.102, pp.502-511
(2016).
[26] Vinodh, S., Sai Balagi, T. S. and Patil, A., “A hybrid MCDM approach
for agile concept selection using fuzzy DEMATEL, fuzzy ANP and fuzzy
TOPSIS,” International Journal of Advanced Manufacturing Technology,
Vol.83, pp.1979-1987 (2016)
[27] Chang, T. H., “Fuzzy VIKOR method: A case study of the hospital
service evaluation in Taiwan,” Information Sciences, Vol.271, pp.196-212
(2014).
[28] Rezaei, M., Naeeni, M. A. and Motlagh, M. S., “Integrated Fuzzy
ANP, Fuzzy VIKOR and goal programming for sourcing in a supply chain:
A case study from cable industry,” Decision Science Letters, Vol.2,
pp.287-298 (2013).
[29] Opricovic, S., “Fuzzy VIKOR with an application to water resources
planning,” Expert Systems with Applications, Vol.38, pp.12983-12990
(2011).
[30] 黃志銘,「LED水族燈之結構與散熱改良研究」,國立台灣科技
大學機械工程學系,碩士論文,台北,民國一百零一年。
[31] 陳啟銘,「結合修正式分析網路程序法與修正式TRIZ發明方法
應用於LED閱讀燈創新設計方案優先次序評估」,國立台灣科技大學
機械工程學系,碩士論文,台北,民國一百零二年。
[32] 王家偉,「應用修正式DANP網路程序分析法於LED自行車燈創
新方案優先評選次序及創新設計研究」,國立台灣科技大學機械工程
學系,碩士論文,台北,民國一百零四年。
[33] Lin, Z. C. and Chen, C. C., “Innovation Procedurefor Polishing Times
Calculations of Compensated CMP Using Multiple Stepsof The Modfied
TRIZ Method,” Journal of Innovative Computing, Information and Control,
Vol.5, pp.2311-2332. (2009).
[34] Altshuller, G., “The 40 Principles,” Technical Innovation Center, Inc.
Worcester, MA (1997).
[35] Savransky, S. D., “Engineering of Creativity-Introduction to TRIZ
Methodology of Inventive Problem Solving,” CRC Press, New York,
(2000).
[36] 張家華,「應用修正式VIKOR法於LED軌道燈評選及改善」,國
立台灣科技大學機械工程學系,碩士論文,台北,民國一百零七年。
[37] Zadeh, L. A., “Fuzzy Sets,” Information and Control, Vol.8, pp.338-353, (1965).
[38] 李允中、王小璠、蘇木春,模糊理論及其應用,全華圖書,台
北,民國一百零一年。
[39] 萬絢、林明毅、陳宏杰,模糊理論應用與實務,儒林圖書,台
北,民國九十五年。
[40] Han, W. M., Hsu, C. H. and Yeh, C. Y., “Using DEMATEL to
Analyze the Quality Characteristics of Mobile Applications,” Proceedings
of the 2014 International Conference on Future Information Engineering
and Manufacturing Science, pp.131-134. (2014).
[41] Opricovic, S., “Multicriteria Optimization of Civil Engineering
Systems,” Faculty of Civil Engineering, Belgrade. (1998).
[42] Awasthi, A., Govindan, K. and Gold, S., “Multi-tier sustainable global
supplier selection using a fuzzy AHP-VIKOR based approach,” International Journal of Production Economics, Vol.195, pp106-117.
(2018).
[43] Wei, J. and Lin, X., “The Multiple Attribute Decision-Making VIKOR
Method and Its Application,” International Conference on Wireless
Communications, Networking and Mobile Computing, (2008).
[44] Saaty, T. L., Decision Making for Leaders:The Analytical Hierarchy
Process for Decisions in a Complex World, Belmont, CA: Wadsworth.
(1982).
[45] Lin, C. J. and Wu, W. W.,“ A Causal Analytical Method for Group
Decision-Makingunder Fuzzy Environment,” Expert Systems with
Applications, Vol.34, No.1 ,pp.205-213. (2008).