結合TRIZ、ANP與Taguchi Method於產品開發模式之研究__臺灣人文及社會科學引文索引資料庫

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題名：	結合TRIZ、ANP與Taguchi Method於產品開發模式之研究
作者：	高崑銘
校院名稱：	國立交通大學
系所名稱：	科技管理研究所
指導教授：	袁建中
學位類別：	博士
出版日期：	2012
主題關鍵詞：	產品開發模式；品質機能展開；TRIZ；分析網路程序法；田口方法；ARIZ；product development model；quality function deployment；TRIZ；analytic network process；Taguchi method；ARIZ
原始連結：	連回原系統網址
相關次數：	被引用次數:期刊(0) 博士論文(0) 專書(0) 專書論文(0) 排除自我引用:0 共同引用:0 點閱:50

產品的設計與開發過程中充滿著高度的不確定性，必須傾聽消費者的聲音，以及評估產品的市場性，才能使產品能順利的商品化並具備市場競爭力。在產品開發流程中，必須有效的整合消費者需求、設計、開發與品質管理等，才能發揮效力。本研究試圖從消費者的需求出發，結合產品創新設計、方案與參數的選擇及商品化，發展出一個合適的產品開發模式，滿足消費者需求並提升產品開發效率。
本研究首先將消費者需求為分為內部顧客之聲與外部顧客之聲。內部顧客之聲指的是企業的經營目標、資源、企業經營模式、技術水準等；外部顧客之聲指的是顧客對產品的需求。其次，在創新設計部分則採用TRIZ的流程與工具，如：ARIZ、質場分析、40項發明原則。最後，結合分析網路程序法與田口方法進行最佳方案的選擇及參數的最佳化模擬，使產品進入商品化。本研究藉由實例操作與說明，提出能有效提升產品開發效率之模式。

以文找文

It was highly uncertain in product design and development process. It is definitely necessary to listen to the voices of consumers and to assess the marketability of the product, in order to make the successful commercialization and improve the competitiveness of products. Consumer demand, design, development and quality management are indispensable for the product development process; each one of them could be a key input for the setting of appropriate design specifications for the new product or service. It will be more effective in integrating them well. This study attempts to develop a suitable model for product development by combining consumer demand, product innovative design, plans and parameters selection, and commercialization, to meet consumer needs and enhancing the efficiency of product development.
This study first divides consumer demand into voices of internal consumers and external consumers. Voices of internal consumers are business objectives, resources, business models, technology levels and so on. Voices of external consumers are the customer needs. Moreover, this study applies the TRIZ tools in problem solving process, such as ARIZ, Substance-Field analysis, and 40 Principles. And then use the ANP and Taguchi method in optimal plan selection and parameter optimization simulations as the final step. This study establishes a product development model which can improve efficiency of the product development process by real cases.

以文找文

1. Balachandra, R. and Friar, J. H., “Factors for Success in R&D Projects and New Product Innovation: A Contextual Framework”, IEEE Transactions on Engineering Management, 44(3), pp. 276-287, 1997.
2. Bicknell, B. and Bicknell, K. D., The Road Map to Reportable Success: Using QFD to Implement Change, Florida: CRC Press, 1995.
3. Booz, Allen and Hamilton, New Product Management for the 1980s, New York: Booz, Allen, and Hamilton, Inc., 1982.
4. Bossert, J. L., Quality Function Deployment: A Practitioner’s Approach, New York: ASQC Quality Press Inc., 1991.
5. Box G. E. P., Hunter W. G., and Hunter, J. S., Statistics for Experimenters: An Introduction to Design, Data Analysis, and Model Building, New York: John Wiley & Sons, 1978.
6. Box G. E. P., Hunter, J. S., and Hunter W. G., Statistics for Experimenters, Design, Innovation, and Discovery, 2nd Edition, New York: John Wiley & Sons, 2005.
7. Brown, P. G., “QFD: Echoing the Voice of Customer”, AT&T Technical Journal, 70(2), pp. 18-32, 1991.
8. Buckley, J.J., “Fuzzy Hierarchical Analysis”, Fuzzy Sets and Systems, 15, pp. 21-31, 1985.
9. Chaberek, S., Shepp, A., and Allen, R. J., “Dye-Sensitized Photopolymerization Processes I”, The Journal of Physical Chemistry, 69, pp. 641-647, 1965.
10. Chang, H. T. and Chen, J. L., “Eco-Innovative Examples for 40 TRIZ Inventive Principle”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2003/08/a/01.pdf, 2003.
11. Chang, H. T. and Chen, J. L., “The Conflict-Problem-Solving CAD Software Integrating TRIZ into Eco-Innovation”, Advances in Engineering Software, 35(8/9), pp. 553-566, 2004.
12. Conley, D. W., “Intel's Field Guide Expert TRIZ-Development, Content and Utilization”, TRIZ-fest 2007, 2007.
13. Conti, T., “Process Management and Quality Function Deployment”, Quality Progress, 22(12), pp. 45-48, 1989.
14. Cooper, R. G., “Doing It Right- Winning with New Products”, Ivey Business Journal, 64(6), pp. 54-60, 2000.
15. Cooper, R. G. and Kleinschmidt, E. J., “Resources Allocation in the New Product Development Process”, Industrial Marketing Management, 17, pp. 249-262, 1998.
16. Cooper, R. G., Edgett, S. J., and Kleinschmidt, E. J., “Optimizing The Stage-Gate Process: What Best-Practice Companies Do-I”, Research Technology Management, 45(5), pp. 21-27, 2002.
17. Crosby, P. B., Quality is Free, New York: McGraw-Hill, 1979.
18. Dale, B. G. and Plunkett, J. J., Quality Costing, 2nd Edition, London: Chapman & Hall, 1995.
19. Deming, W. E., Quality, Productivity and Competitive Position, MIT-CAEA, Massachusetts: Cambridge, 1982.
20. Dourson, S., “The 40 Inventive Principles of TRIZ Applied to Finance”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2004/10/07.pdf, 2004.
21. Edwards, W. K. and Grinter, R. E., “At Home with Ubiquitous Computing: Seven Challenges”, Proceedings of the Third International Conference on Ubiquitous Computing, pp. 256-272, 2001.
22. Erdogmus, S., Aras, H., and Koc, E., “Evaluation of Alternative Fuels for Residential Heating in Turkey Using Analytic Network Process (ANP) with Group Decision-making”, Renewable and Sustainable Energy Reviews, 10, pp. 269-279, 2006.
23. Fey, V. and Rivin, E., Innovation on Demand: New Product Development Using TRIZ, Cambridge University Press, 2005.
24. Garvin, D. A., “What Does Product Quality Really Mean”, Sloan Management Review, 26(1), pp. 25-43, 1984.
25. Gizmag Team, “Nanogenerator Harvests Energy from Environmental Sources”, from: http://www.gizmag.com/go/7682, 2007.
26. Greichen, J. J., “Value Based Home Automation for Today's Market”, IEEE Transactions on Consumer Electronics, 38(3), pp. 34-38, 1992.
27. Haiken, M., “Death of the Cell Phone Charger”, Business 2.0 Magazine, from: http://money.cnn.com/magazines/business2/business2_archive/2007/04/01/8403349/index.htm?postversion=2007033007, 2007.
28. Harper, R., Inside the Smart Home, London: Springer-Verlag, 2003.
29. Hart, M. A., “Innovation on Demand: New Product Development Using TRIZ”, Journal of Product Innovation Management, 24(6), pp. 635-636, 2007.
30. Hauser, J. R. and Clausing, D., “The House of Quality”, Harvard Business Review, 66(3), pp. 63-73, 1988.
31. Hindus, D., “The Importance of Homes in Technology Research”, Proceedings of the Second International Workshop on Cooperative Buildings, Integrating Information, Organization, and Architecture, pp. 199-207, 1999.
32. Hipple, J., “The Use of TRIZ Principles in Consumer Product Design”, TRIZCON2006, 2006.
33. Hollins, B. and Stuart, P., Success Product Design: What to Do and When, London: Butterworths, 1990.
34. Huang, J. J., Tzeng, G. H., and Ong C.S., “Multidimensional Data in Multidimensional Scaling Using the Analytic Network Process”, Pattern Recognition Letters, 26, pp. 755-767, 2005.
35. Hurd, F. and Livingston, R., “The Quantum Yields of Some Dye-Sensitized Photooxidations”, The Journal of Physical Chemistry, 44, pp. 865-873, 1940.
36. Ikovenko, S., “TRIZ Application for IP Strategies Development”, from: http://triz-summit.ru/file.php/id/f4113/name/Яковенко-2006.pdf, 2006
37. Ikovenko, S., “Directions for Future TRIZ Development and Applications”, The Fourth TRIZ Symposium in Japan, 2008.
38. Ikovenko, S., Certification TRIZ Training (Level 1), GNE3 Partners, 2010a.
39. Ikovenko, S., Certification TRIZ Training (Level 2), GNE3 Partners, 2010b.
40. Ikovenko, S., Certification TRIZ Training (Level 3), GNE3 Partners, 2010c.
41. Jharkharia, S. and Shankar, R., “Selection of Logistics Service Provider: An Analytic Network Process (ANP) Approach”, Omega, 35, pp. 274-289, 2007.
42. Johnston, H., “Bendy Wires Generate AC Power”, from: http://physicsworld.com/cws/article/news/36647, 2008.
43. Juran, J. M. and Gryna, F. M., Quality Planning and Analysis: From Product Development through Use, 3rd Edition, New York: McGraw-Hill, 1993.
44. Kahraman, C., Ertay, T., and Buyukozkan, G., “A Fuzzy Optimization Model for QFD Planning Process Using Analytic Network Approach”, European Journal of Operational Research, 171, pp. 390-411, 2006.
45. Lee, H. H., Taguchi Methods: Principles and Practices of Quality Design, Gau Lih Book Co. Ltd., 2008.
46. Lee, J. W. and Kim, S. H. (2000), “Using ANP and GP for Interdependent Information System Project Selection”, Computers & Operations Research, 27, pp. 367-382, 2000.
47. Litvin, S. S., “Substantiation of Function-Oriented Search Derived Solutions”, from: http://www.metodolog.ru/01100/01100.html, 2006.
48. Mann, D. and Winkless, B., “40 Inventive (Food) Principles with Examples”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2001/10/b/index.htm, 2001.
49. Mann, D., “Application of TRIZ Tools in a Non-Technical Problem Context”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2000/08/a/index.htm, 1999.
50. Mann, D., Hands on Systematic Innovation, England: IFR Press, 2002.
51. Mann, D., “Systematic Win-Win Problem Solving in a Business Environment”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2002/05/f/index.htm, 2002.
52. Mann, D., Hands on Systematic Innovation: For Business and Management, UK: IFR Press, 2004.
53. Mann, D. and Domb, E., “40 Inventive (Business) Principles with Examples”, The TRIZ Journal, from: http://www.triz-journal.com/archives/1999/09/a/index.htm, 1999.
54. Marconi, J. and Works, M., “ARIZ: The Algorithm for Inventive Problem Solving”, The TRIZ Journal, from: http://www.triz-journal.com/archives/1998/04/d/index.htm, 1998.
55. Marsh, D. G., Waters, F. H. and Mann, D., “Using TRIZ to Resolve Educational Delivery Conflicts Inherent to Expelled Students in Pennsylvania”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2002/11/c/03.pdf, 2002.
56. Mazur, G., “Theory of Inventive Problem Solving”, from: http://www.mazur.net/triz/, 1995.
57. Mor, G. K., Varghese, O. K., Paulose, M., Shankar, K., and Grimes, C. A., “A Review on Highly Ordered, Vertically Oriented TiO2 Nanotube Arrays: Fabrication, Material Properties, and Solar Energy Applications”, Solar Energy Materials & Solar Cells, 90(14), pp. 2011-2075, 2006.
58. O’Regan, B. and Gratzel, M., “A Low-Cost, High-Efficiency Solar Cell Based Ondye-Sensitized Colloidal TiO2 Films”, Nature, 353, pp.737-740.
59. Oster, G., Bellin, J. S., Kimball, R. W., and Schrader, M. E., “Dye-Ssensitized Photooxidation”, Journal of the American Chemical Society, 81, pp. 5095-5099, 1959.
60. Petersen, T., Williams, P., and Mills, A., “Analysis of the Value of Home Automation Systems”, Facilities, 19(13), pp. 522-530, 2001.
61. Phadke, M. S., Quality Engineering Using Robust Design, 1st Edition, New Jersey: Prentice Hall, 1989.
62. Rea, K. C., “TRIZ and Software - 40 Principle Analogies, Part 1”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2001/09/e/index.htm, 2001a.
63. Rea, K. C., “TRIZ and Software - 40 Principle Analogies, Part 2”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2001/11/e/index.htm, 2001b.
64. Retseptor, G., “40 Inventive Principles in Microelectronics”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2002/08/b/index.htm, 2002.
65. Retseptor, G., “40 Inventive Principles in Marketing, Sales and Advertising”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2005/04/01.pdf, 2005.
66. Ross, P. J., Taguchi Techniques for Quality Engineering, 2nd Edition, New York: Mcgraw-Hill, 1996.
67. Rozum, J., “A Way to Improve Customer Satisfaction (using weighted customer oriented matrix for improvement)”, Quality Progress, 27(10), pp. 67-71, 1994.
68. Ryan, J. L., “Home Automation”, Electronics & Communication Engineering Journal, 1(4), pp. 185-192, 1989.
69. Saaty, T. L., The Analytic Hierarchy Process, New York: McGraw-Hill, 1980.
70. Saaty, T. L., The Analytic Network Process, Pittsburgh: RWS Publications, 1996.
71. Savransky, S. D., Engineering of Creativity: Introduction to TRIZ Methodology of Inventive Problem Solving, Florida: CRC Press, 2000.
72. Schweizer, T. P., “Integrating TRIZ into the Curriculum: An Educational Imperative”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2002/11/a/index.htm, 2002.
73. Sheu, D. D., “A Proposed Classification and Process of Systematic Innovation”, International Journal of Systematic Innovation, 1, pp. 3-22, 2009.
74. Sullivan, L. P., “Quality Function Deployment”, Quality Progress, 19(6), pp. 39-50, 1986.
75. Taguchi G. and Konishi, S., Orthogonal Arrays and Linear Graphs: Tools for Quality Engineering, American Supplier Institute, 1987.
76. Taguchi, G., Introduction to Quality Engineering: Designing Quality into Products and Processes, New York: UNIPUB, 1986.
77. Taguchi, G., System of Experimental Design: Engineering Methods to Optimize Quality and Minimize Costs, Vol. 1, New York: UNIPUB, 1987a.
78. Taguchi, G., System of Experimental Design: Engineering Methods to Optimize Quality and Minimize Costs, Vol. 2, New York: UNIPUB, 1987b.
79. Taguchi, G., Konishi, S., and Wu, Y., Quality Engineer Series, Vol. 1, Taguchi Methods, Research and Development, Michigan: ASI Press, 1992.
80. Teplitskiy, A. and Kourmaev, R., “Application of 40 Inventive Principles in Construction”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2005/05/03.pdf, 2005.
81. Terninko, J., “40 Inventive Principles with Social Examples”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2001/06/a/index.htm, 2001.
82. Terninko, J., Domb, E., and Miller, J., “The Seventy six Standard Solutions, with Examples Section One”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2000/02/g/index.htm, 2000a.
83. Terninko, J., Domb, E., and Miller, J., “The Seventy-six Standard Solutions, with Examples-Class 2”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2000/03/d/index.htm, 2000b.
84. Terninko, J., Domb, E., and Miller, J., “The Seventy-six Standard Solutions, with Examples-Class 3”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2000/05/b/index.htm, 2000c.
85. Terninko, J., Domb, E., and Miller, J., “The Seventy-six Standard Solutions, with Examples-Class 4”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2000/06/e/index.htm, 2000d.
86. Terninko, J., Domb, E., and Miller, J., “The Seventy-six Standard Solutions, with Examples-Class 5”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2000/07/b/index.htm, 2000e.
87. Terninko, J., Domb, E., and Miller, J., “Using the 76 Standard Solutions: A Case Study for Improving the World Food Supply”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2001/04/e/index.htm, 2001.
88. Terninko, J., Zusman, A., and Zlotin, B., Systematic Innovation: An Introduction to TRIZ, Florida: Saint Lucie Press, 1998.
89. TRIZ Tools, Effects, from: http://www.triz.co.kr/TRIZ/frame.html, 2011.
90. Tsubomura, H., Matsumura, M., Nomura Y., and Amamiya, T., “Dye Sensitised Zinc Oxide/Aqueous Electrolyte/Platinum Photocell”, Nature, 261, pp. 402, 1976.
91. Venkatesh, A., “Digital Home Technologies and Transformation of Households”, Information Systems Frontiers, 10(4), pp. 391-395, 2008.
92. Wolfslehner, B., Vacik, H., and Lexer, M. J., “Application of the Analytic Network Process in Multi-criteria Analysis of Sustainable Forest Management”, Forest Ecology and Management, 207, pp. 157-170, 2005.
93. Wu, W. W. and Lee, Y. T., “Selecting Knowledge Management Strategies by Using the Analytic Network Process”, Expert Systems with Applications, 32, pp. 841-847, 2007.
94. Zhang, J., Chai, K. H., and Tan, K. C., “40 Inventive Principles with Applications in Service Operations Management”, The TRIZ Journal, from: http://www.triz-journal.com/archives/2003/12/d/04.pdf, 2003.
95. Zhao, J. L., Wang, X. H., Chen, R. Z., and Li, L. T., “Fabrication of Titanium Oxide Nanotube Arrays by Anodic Oxidation”, Solid State Communications, 134(10), pp. 705-710, 2005.
96. 中國生產力中心，系統化品質機能展開實務技術手冊，中國生產力中心，民國81年。
97. 赤尾洋二著，新產品開發-品質機能展開之實際應用，中國生產力中心譯，中國生產力中心，民國80年。
98. 田文月，「TRIZ-突破困境的創新利器」，人才資本雜誌，第5卷，民國95年。
99. 自由時報電子報，中國又漲工資台商營運雪上加霜，取自：http://www.libertytimes.com.tw/2012/new/jan/3/today-e6.htm，民國101年。
100. 周天行，家庭自動化控制技術與市場專題，工業技術研究院，民國87年。
101. C. H. Lovelock著，服務業行銷，周逸衡譯，華泰，民國88年。
102. 翁振益、周瑛琦、張保隆，決策分析方法與應用，華泰，民國96年。
103. 袁建中、林奉錫、高崑銘，「小型IC設計公司之新產品系統開發工具與流程」，技術轉移與成果轉化暨沿海區域科技管理學術交流會，民國100年。
104. 袁建中、高崑銘、蘇乃顯，「以TRIZ探討家庭自動化技術發展之趨勢」，The 1st International Conference on Systematic Innovation，民國99年。
105. 高崑維，「應用於染料敏化太陽電池之陽極氧化鈦奈米管陣列製程研究」，國立雲林科技大學光電工程研究所碩士論文，民國98年。
106. 許棟樑，「系統性創新：自主創新的完整捷徑」，2009創新方法高層論壇，民國98年。
107. 萬海保、曹立新、王麗穎、曾廣賦、席時權，「染料敏化的TiO2納米晶多孔膜的性質及其光電轉換」，化學通報，第6卷，頁30-34，民國88年。
108. 潘浙湳，「沙寧、田口與傳統實驗設計方法之比較分析」，品質管制月刊，第30卷第10期，頁31-41，民國83年。
109. 鄧振源，計畫評估-方法與應用，2版，運籌規劃與管理研究中心，民國94年。
110. 鄧振源與曾國雄，「層級分析法(AHP)的內涵特性與應用(上)」，中國統計學報，頁5-22，民國78年。
111. 鄭燕琴，田口品質工程技術理論與實務，中華民國品質管制學會，民國82年。
112. Altshuller, G.著，創意快閃TRIZ大思維，蕭詠今譯，台海文化傳播，民國95年。
113. 蘇朝墩，品質工程，中華民國品質管制學會，民國91年。
114. 鐘清章，品質工程(田口方法)，中華民國品質管制學會，民國83年。

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12.	應用財務分配觀點探討全面品質管理於構建競爭力關鍵成功因素(KSF)–以台北市補習班為例
13.	使用層級分析法評估大數據對個人隱私的影響
14.	我國樂齡學習中心評鑑指標建構之研究
15.	次世代工業企業資源規劃之導入

1.	市場調查：新式與基礎調查方法及實例
2.	臺灣公共關係職能建構之研究
3.	舊鐵橋濕地公園開發影響遊客休閒行為、知覺價值與生態文化旅遊發展效益評估之研究
4.	層級分析法在犯罪偵查上之應用
5.	航空站區位選擇評估程序之研究
6.	高速鐵路技術型式評估準則及方法之研究

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