由於現代產品發展快速，設計師進行設計，傳統資料的取得已不足以應付，網路資料的即時與快速，適時的彌補這樣的不足，設計師紛紛加入網路資料的參考，只是目前的資料仍都處於文字上描述與現成產品的展示，少有設計發展程序上的資料，而對設計而言這些資料也較能幫助設計師進行設計，有鑑於此，本研究想經由網路所帶來的資料豐富與快速的搜尋性，發展一套網路輔助設計構想發展的系統，以分享設計資料的方式，幫助設計師進行設計。

本研究目的擬建立一套可輔助設計之網路電腦輔助設計系統。系統本身以遺傳演算法為基本架構，先分析出產品造形構成方式，引申發展適合於電腦化之造形規則，將各構件建構完成，並藉遺傳演算快速搜尋最佳值的特性，進行演化運算找出構件較佳之組合，配合相關網路程式語言，以3-D 繪圖的方式建構產品3-D造形，呈現於系統網頁上，供使用者參考。

Due to the fast changes in product development, the traditional design data are insufficient for designers to design product. The characteristics of fast and in time transfer the required data on internet, however, fill up this defect. Thus, internet is gradually used by designers as a tool to design their products. But the transferred data are still focused on letter, documents and product pictures at present, lacking for the study on creating the design data in product development process such as the creating of design concepts. Therefore, we would like to develop an internet-based computer-aided-concept development system, in this study, to help designers to design products.
In this system, the relationships between the product and product image will first be quantified by using questionnaires and then the genetic algorithms is used to build the CAD system, based on the obtained data, for constructing 3-D model of a product on internet. The inferred concept on internet can be offered as a reference for the designer/consumer to design/select the required product.

1.台灣商業網，“電子商務”，Taiwan web，1999。
2.赤尾洋二、中國生產力中心QFD 研發小組編譯，“新產品開發品質機能展開之實際應用”，中國生產力中心，台北，1991。
3.邱碩勛、林佩瑩、劉鳴、何梵，“網路寶典 HTML3 & VRML”，儒林圖書公司，台北，1996。
4.林建銘、高名揚，“精通Java 2”，文魁資訊股份有限公司，台北，2000。
5.林振陽，“工業設計中力體造形之理論與實際”，六合出版社，台北，1979。
6.祝華健，“電腦繪圖的數學基礎”，儒林圖書公司，台北，1990。
7.曾國雄，“多變量解析與其應用”，pp. 167-188，華泰書局，台北，1991。
8.陳信輝，“產品操作介面設計標準化模式建立研究-以消費性電子產品為例”，國立成功大學碩士論文，成功大學，1999。
9.陳淵琛，“最佳化設計概念於產品造形設計上之應用研究”，國立成功大學碩士論文，成功大學，2000。
10.黃俊英，“多變量分析”，中國經濟企業研究所，第六版，台北，1998。
11.黃信智，“類神經網路在產品造形設計上的應用研究”，國立成功大學碩士論文，成功大學，1998。
12.楊錦文、鄧永亥、謝金興，“Java 程式設計”，全華科技圖書股份有限公司，台北，1999。
13.蔡明琦，“電腦輔助工業設計於網際網路上的應用”，國立成功大學碩士論文，成功大學，2000。
14.劉孟昌，“型態漸變之產品造形衍生與整合模式研究”，國立成功大學碩士論文，成功大學，1999。
15.蕭世文、范成偉，“整合FMS、STM及DFA法於水龍頭設計上的應用研究”，Journal of Chinese Institute Engineers, Vol. 13, No. 3, pp. 225-235, 1996.
16.簡召全、馮明、朱崇賢，“工業設計方法學”，北京理工大學出版社，北京，1993。
17.蘇木春、張孝德，“機器學習 類神經網路、模糊系統以及基因演算法則”，全華科技圖書股份有限公司，台北，1999，
18.Ammeraal Leen, “Computer Graphics for Java Programmers,” John Wiley & Sons, New York, 1998.
19.Anand Vera B.,“Computer Graphics and Geometric Modeling for Engineers,”John Wiley & Sons, Inc, New York, 1993.
20.Charlton C. T. and Wallace K. M.,“A Web Broker for Component Retrieval in Mechanical,”Design Studies, Vol. 21, pp.167-186, 2000.
21.Chen, S. C. E. and Parent, R. E.,“Shape Averaging and Its Application to Industrial Design ,”IEEE Computer Graphics & Applications, pp. 47, January, 1988.
22.Cho N. W., Kim N. K., Kim Y., Kang S.-H.,“An Evolutionary Method for General Surface-Surface Intersection Problems,”Computers ind. Engng, Vol. 33, Nos. 3-4, pp.573-576, 1997.
23.E David,“Goldberg, Genetic Algorithms in Search, Optimization, and Machine Learning,”Addision-Wesley, New York, 1989.
24.Eckel Bruce, “Thinking in Java,”Prentice-Hall, New Jersey, 1998.
25.Flemming U, “More Than The Sum of Parts: The Grammar of Queen Anne Houses,” Environment and Planning B: Planning and Design,, Vol.14, pp.323-350, 1987.
26.Fukushima Kiyoshi, Kawata Hiroshi, Fujiwara Yoshihisa, Genno Hirokazu,“Human Sensory Perception Oriented Image Prcessing in A Color Copy System,”International Journal of Industrial Ergonomics, Vol. 15, pp.63-74, 1995.
27.Gen Mitsuo, Cheng Runwei, “Genetic Algorithms & Engineering Design,” John Wiley & Sons, New York, 1996.
28.Guh R.-S., Zorriassatine F., Tannock J. D. T., Brien C. O’,“On-line Control Chart Pattern Detection and Discrimination—A Neural Network Approach,”Artificial Intelligence in Engineering, Vol. 13, pp. 413-425, 1999.
29.Gurocak H. B.,“A Genetic-Algorithm-Based Method for Tuning Fuzzy Logic Controllers,”Fuzzy Sets and Systems, Vol.108, pp.39-47, 1999.
30.Hsiao Shih-Wen and Chen Ching-Hai,“A Semantic and Shape Grammar Based Approach for Prouduct Design,”Design Studies, Vol. 18, pp. 275-296, 1997.
31.Hsiao Shih-Wen and Wang His-Ping ,“Applying The Semantic Transformation Method to Product Form Design,”Design Studies, Vol. 19, pp.309-330, 1998.
32.Hsiao Shih-Wen,“Fuzzy Logic Based Decision Model for Product Design,” International Journal of Industrial Ergonomics, Vol. 21, pp.103-116, 1998.
33.Hsiao Shih-Wen,“Fuzzy Set Theory Applied to Car Style Design,”International Journal of Vihicle Design, Vol. 15, No.3/4/5, pp.255-278, 1994.
34.Hubka,V., Andreasen, M. M.,and Eder, W. E.,“Tea Brewing Machine,” Practical Studies in Systematic Design, Butterworths, London, 1988.
35.Hubka, V., Andreasen, M. M. and Eder, W. E., “Practical Studies in Systematic Design,” Butterworths, London, 1988.
36.Hubka, V.,“Principles of Engineering Design,” Butterworths, London, 1982.
37.Ishihara Shigekazu, Ishihara Keiko, Nagamachi Mitsuo, Matsubara Yukihiro,“An Automatic Builder for A Kansei Engineering Expert System Using Self-Organizing Neural Networks,”International Journal of Industrial Ergonomics, Vol. 15, pp.13-24, 1995.
38.Jindo Tomio, Hirasago Kiyomi, Nagamachi Mitsuo,“Development of A Design Support System for Office Chairs Using 3-D Graphics,”International Journal of Industrial Ergonomics, Vol. 15, pp. 49-62, 1995.
39.Knight T W, “Languages of Design: Form Known to New,” Environment and Planning B, Vol.8, pp.213-238, 1981.
40.Kruskal J. B.,“Multidimensional Scaling by Optimizing Goodness of Fit to A Nonmetric Hypothesis,”Psychometrika, Vol. 29, pp.1-27, 1964.
41.Louis Sushil J., Li Gong,“Case Injected Genetic Algorithms for Traveling Salesman Problems,”Information Sciences, Vol. 122, pp. 201-225, 2000.
42.Michalewicz Zbigniew,“Genetic Algorithms + Data Structures = Evolution Programs,”Springer -Verlag, New York, 1996.
43.Miller, G. A.,“The Magical Number Seven, Plus or Minus Two: Some Limits on Our Capacity for Processing Information,”Psychological Review, Vol. 63, pp. 81-97, 1963.
44.Mitchell, W. J., “The Logic of Architecture Design,” Computation, and Cognition, Cambridge, MA: The MIT. Press, 1990.
45.Müller K., Sebastian H-J.,“Intelligent Systems for Engineering Design and Configuration Problems,”European Journal of Operational Research, Vol. 100, pp. 315-326, 1997.
46.Nagamachi Mitsuo,“Kansei Engineering: A New Ergonomic Consumer-Oriented Technolog for Product Development,”International Journal of Industrial Ergonomics, Vol. 15, pp.3-11, 1995.
47.Nigel Cross.,“Engineering Design Method,”John Wiley & Sons, New York, 1994.
48.Osborn, A. F., “Applied Imagination,” Scribener’s Sons, New York, 1963.
49.Ramasamy J. V. and Rajasekaran S.,“Artificial Neural Network and Genetic Algorithm for The Design Optimization of Industrial Roofs – A Comparson,” Computers & Structures, Vol. 58, No.4, pp.747-755, 1996.
50.Rodger Paul A., Huxor Avon P. and Caldwell Nicholas H. M.,“Design Support Using Distributed Web-Based AI Tools,”Research in Engineering Design, Vol. 11, pp.31-44, 1999.
51.Sederberg, T. W., “A Physically Based Approach to 2-D Shape Blending,” Computer Graphics, Vol. 26, No. 2, pp. 25-34, 1992.
52.Shimizu Youji, Jindo Tomio,“A Fuzzy Logic Analysis Method for Evaluating Human Sensitivites,”International Journal of Industrial Ergonomics, Vol. 15, pp. 39-47, 1995.
53.Stiny G, “Ice-Ray: A Note on The Genertion of Chinese Lattice Designs,” Environment and Planning B, Vol. 4, pp. 89-98, 1977.
54.Stiny G, “Kindergarten Grammars: Designing with Froebel’s Building Gifts,” Environment and Planning B, Vol. 7, pp. 409-462, 1980.
55.Tchaban T., Griffin J. P., Taylor M. J.,“A Comparison Between Single and Combined Backpropagation Neural Networks in the Prediction of Turnover,”Engineering Applications of Artificial Intelligence, Vol. 11, pp. 41-47, 1998.
56.Thornton Anna C.,“The Use of Constrain-Based Design Knowledge to Improve The Search for Feasible Designs,” Engng Applic. Aryif. Intell, Vol. 9, No. 4, pp. 393-402, 1996.
57.Tjalve Eskild,“A Short Course in Industrial Design,”Newnes-Butterworths, London, 1979.
58.Vico F. J., Veredas F. J., Bravo J. M., Almaraz J.,“Automatic Design Synthesis with Artificial Intelligence Techniques,”Artificial Intelligence in Engineering, Vol. 13, pp. 251-256, 1999.
59.Wallace David R, Jakiela Mark J and Flowers Woodie C,“Design Search under Probabilistic Specifications Using Genetic Algorithms,”Computer-Aided Design, Vol. 28, pp. 405-421, 1996.
60.Weile Daniel S., Michielssen Eric,“The Use of Domain Decomposition Genetic Algorithms Exploiting Model Redution for The Design of Frequency Selective Surfaces,”Computer Methods in Applied Mechanics and Engineering, Vol. 186, pp. 439-458, 2000.
61.Yang Sun-mo, Nagamachi Mitsuo, Lee Soon-yo,“Rule-Based Inference Model for the Kansei Engineering System,”International Journal of Industrial Ergonomics, Vol. 24, pp. 459-471, 1999.

網站部份：
62.http://cs.felk.cvut.cz/~xobitko/ga/
63.http://www.cs.berkeley.edu/~j-yen/splines/bsplinecurve/
64.http://www.cs.technion.ac.il/~cs234325/Homepage/Applets/applets/bspline
/GermanApplet.html
65.http://www.doc.ic.ac.uk/~dfg/AndysSplineTutorial/BSplines.html
66.http://www.engin.umd.umich.edu/CIS/course.des/cis577/projects/BSP/welcome.html
67.http://www.ifi.uio.no/in104/in104.jar.doc/ifi.math.spline.KnotVec.html
68.http://www.igd.fhg.de/~lindner/UbsDemo_1.html
69. http://www.pcschool.com.tw/default.htm