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研究生:許雅雯
研究生(外文):Ya-Wen Hsu
論文名稱:嬰兒車骨架設計自動化模式研究
論文名稱(外文):Computer aided baby strollers' skeleton design
指導教授:蕭世文蕭世文引用關係
指導教授(外文):Shih-Wen Hsiao
學位類別:碩士
校院名稱:國立成功大學
系所名稱:工業設計學系碩博士班
學門:設計學門
學類:產品設計學類
論文種類:學術論文
論文出版年:2002
畢業學年度:90
語文別:英文
論文頁數:81
中文關鍵詞:產品設計模糊理論骨架設計嬰兒車
外文關鍵詞:Product designSkeleton designBaby strollerFuzzy logic
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設計工作是問題的解決,對很多產品設計而言,骨架設計是最重要的一個設計程序,因其操縱設計成果的成敗與否,而對於一些可動式骨架的產品更是不容易被設計。本研究針對如何使骨架設計程序自動化作深入的探討與實力的運用,研究中以模糊理論作骨架的分群為研究的始端,接續以機構學剖析車架組成與結構,且利用實體模型建構軟體建立骨架且進行骨架控制,作動產生與設計分析,而一個容易被設計師使用的操作介面將被建立用於新骨架的產生與設計,在研究的最後,一個新的設計案例將操作自動化設計模式的研究成果,而骨架設計自動化的研究程序將可運用於相識性的骨架產品。
Design is problem solving. For many products, the skeleton design is the most important part of the process. Usually it controls whether the product design will be successful or not. The movable skeleton design is the most difficult to create. This article proposes how to automate skeleton design of baby strollers. The research starts with grouping the styles of products using fuzzy logic. It proceeds with describing the skeleton by mechanism structure. Using a 3D modeling program, it continues with creating the skeleton, constraining the skeleton, and controlling the skeleton’s movements. In the end, an interface will be created. Throughout the research of the skeleton design for a baby stroller is used as an example in this study. This method can also be used to develop other similar products.
ACKNOWLEDGMENT 5
LIST OF TABLES 6
ABSTRACT 10
CHAPTER I INTRODUCTION 12
1.1 MOTIVATION AND BACKGROUND 12
1.2 AIM OF THE RESEARCH 14
1.3 STRUCTURE OF THE RESEARCH 15
CHAPTER II RELATED WORKS 18
2.1 AUTOMATIC DESIGN OF MECHANISMS 18
CHAPTER III THEORY 20
3.1 FUZZY LOGIC 20
3.2 MECHANISM 27
3.3 COMPUTER INTEGRATED 36
CHAPTER IV THE STEPS OF RESEARCH 38
4.1 INFORMATION COLLECTION 38
4.2 CLASSIFICATION OF STROLLER’S SKELETON 39
4.3 MOTIONS’ SKELETON CREATION 49
4.4 DESIGN ANALYSIS 54
CHAPTER V INTERFACE DESIGN 67
5.1 Interface Design 67
CHAPTER VI CASE STUDIES 71
6.1 CASE 1 71
CHAPTER VII CONCLUSION 77
REFERENCES 78
ATTACHMENT 81
Design families and design individual, v16, 253-263
Using the skeleton method to define a preliminary geometrical model for three-dimensional speed reducers, v16, 117-130
Skeletons for representation and reasoning in engineering applications, v17, 186-198
Engineering design methods, 24-25
Fuzzy logic based decision model for product design, v21, 103-116
Creative design of mechanical devices, 28-30
Pro/ENGINEER Release 2000i, 114-256
Pro/TOOLKEY Release 2000i, 55-64
Product design: fundamentals and methods, 11-14
Automated design and sketching of mechanisms based on specified design requirements by methodologies, 1- 20
Some applications of graph theory to the structural analysis of mechanisms,v89, 21-33
The creation of mechanisms according to kinematic structure and function, v6, 44-52
Type and dimensional synthesis of casement window mechanisms, v23, 31-42
Recent developments in the creative design of mechanisms,
Mechanical design using a lisp system, 57-59
The development of an atlas of the kinematic structures of mechanisms. 114-118
Matrices associated with kinematic chains with from 3 to 5 members, 32-55
The representation of kinematic chains, 132-137
Fuzzy sets, 5-12
A systematic method for color planning in product design, vol. 20, 191-205
Fuzzy time and its applications, 87-101
Application of a fuzzy classification technique in computer grading of fish product, vol.6, 144-151
Design of Multiobjective Satisfactory Fuzzy Logic Controller using Reinforcement Learning, vol.2, no2, 139-147
A fuzzy analytic hierarchy process approach in modular product design, vol.8, no.1, 32-41
A semantic and shape grammar based approach for product design, V18, no. 3, 275-296
Fuzzy logic with engineering applications, p48-p49
Fuzzy sets, uncertainty, and information, 82-85
Creative design of mechanical devices, p18-p25
Designing cost-efficient mechanisms, p35-p36
Mechanism design: analysis and synthesis, p33-p35
Mechanisms for engineering design, p52-p55
Geometric design of linkages, p4-p6
Analytical kinematics, p24-p26
Kinematics and linkage design, p29-p33
Proposed standardized system for notation and classification of the four – bar linkage, ASME paper p57-p28
Computer aided kinetics for machine design. p91
Computer integrated machine design, p3-p5
Fuzzy sets, uncertainty, and information, p20
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