可適應(yīng)設(shè)計(jì)方法及應(yīng)用（Adaptable Design Methods and Applications）

定　價(jià)：￥168.00

作　者：	顧佩華,薛德意,彭慶金,張健
出版社：	華中科技大學(xué)出版社
叢編項(xiàng)：
標(biāo)　簽：	暫缺

購買這本書可以去

當(dāng)當(dāng)網(wǎng) (￥144.50)

ISBN：	9787577208206	出版時(shí)間：	2024-07-01	包裝：	精裝
開本：	16開	頁數(shù)：		字?jǐn)?shù)：

內(nèi)容簡介

　　本書提供了適應(yīng)性設(shè)計(jì)（AD）的全面研究，從構(gòu)思概念、開發(fā)方法和應(yīng)用到AD的真實(shí)世界產(chǎn)品設(shè)計(jì)，通過擴(kuò)展AC的設(shè)計(jì)和物理產(chǎn)品的實(shí)用性，可以實(shí)現(xiàn)實(shí)質(zhì)性的益處。AD的主要元素包括合理化的功能結(jié)構(gòu)、可適應(yīng)的產(chǎn)品架構(gòu)、可適應(yīng)接口和適應(yīng)性評估。AD原則的關(guān)鍵方面是適應(yīng)性，包括設(shè)計(jì)適應(yīng)性、產(chǎn)品適應(yīng)性、一般適應(yīng)性和特定適應(yīng)性，以及適應(yīng)性的建模和評估。對這些方面的詳細(xì)討論是為了理解AD。還描述了在軟件中實(shí)現(xiàn)AD和設(shè)計(jì)應(yīng)用的方法、工具和技術(shù)。包括AD的應(yīng)用示例，以說明如何在實(shí)際產(chǎn)品設(shè)計(jì)中使用AD。最后，強(qiáng)調(diào)了人工智能、大數(shù)據(jù)、物聯(lián)網(wǎng)、云技術(shù)等先進(jìn)技術(shù)以及元宇宙和Web3.0時(shí)代AD的未來發(fā)展。

作者簡介

　　2017年顧佩華入選McMaster大學(xué)150杰出工程校友（Top 150 Alumni of Engineering， McMaster University）；他連續(xù)多年入選ELSVIER高引中國研究者并在工業(yè)工程和制造工程領(lǐng)域連續(xù)3年排名第一;他2004年入選加拿大工程院（Fellow， Canadian Academy of Engineering）和國際生產(chǎn)工程院（Fellow， International Academy of Production Engineering – CIRP），是最早入選加拿大工程院的華人之一。顧佩華1995年和2000年兩次成為加拿大自然科學(xué)和工程研究委員會（國家自然基金委）工業(yè)和工程設(shè)計(jì)講席教授（NSERC Industrial Chair and NSERC Design Chair）、廣東省領(lǐng)軍人才（2011年）。獲2009年英國機(jī)械工程師協(xié)會頒發(fā)的Joseph Whitworth優(yōu)秀論文獎(jiǎng)、2011年CIRP設(shè)計(jì)年會的最佳論文獎(jiǎng)、第九屆設(shè)計(jì)與制造前沿國際會議優(yōu)秀論文獎(jiǎng)、美國制造工程師學(xué)會（SME）制造教育杰出進(jìn)步獎(jiǎng)，優(yōu)秀大學(xué)校長獎(jiǎng)等。2005年他將當(dāng)時(shí)國際上先進(jìn)工程教育框架CDIO引入中國，并用CDIO在汕頭大學(xué)工學(xué)院5個(gè)專業(yè)實(shí)施結(jié)果導(dǎo)向的工程教育改革（EIP-CDIO和OBE-CDIO）。他是CDIO聯(lián)盟的創(chuàng)始主席，并且獲得了廣東省教學(xué)一等獎(jiǎng)和國家教學(xué)二等獎(jiǎng)。

圖書目錄

Contents 1 Introduction ................................................... 1 1.1 Product Life Cycle and Engineering Design .................... 3 1.1.1 Product Life Cycle ................................... 3 1.1.2 Engineering Design .................................. 5 1.1.3 Design Methodologies and Tools ....................... 7 1.1.4 Requirements for Adaptable Design .................... 10 1.2 Principles of Adaptable Design ............................... 11 1.2.1 Adaptable Design .................................... 11 1.2.2 Extension of Utility in Adaptable Design ................ 13 1.2.3 Key Issues in Adaptable Design ........................ 14 1.3 Benefits of Adaptable Design ................................ 17 1.3.1 Users: Extended Product Utility ........................ 17 1.3.2 Producers: Extended Design Utility ..................... 17 1.3.3 User and Producer Benefits of Large Systems ............ 19 1.3.4 Environmental Benefits ............................... 20 1.4 Applicability of Adaptable Design ............................ 21 1.5 Differences Between Adaptable Design and Other Design Methods .................................................. 23 1.6 Organization of This Book ................................... 24 1.7 Summary .................................................. 24 References ..................................................... 25 2 Modeling for Adaptable Design .................................. 31 2.1 Rationalized Functional Structures for Adaptable Design ......... 31 2.1.1 Function Modeling for Adaptable Design ................ 32 2.1.2 Structure Modeling for Adaptable Design ............... 36 2.1.3 Relations Between Functional and Structural Components ......................................... 42 2.2 Product Architecture for Adaptable Design ..................... 43 2.2.1 Modular Products .................................... 43 2.2.2 Product Platforms and Families ........................ 442.2.3 Open Architecture Products ........................... 45 2.3 Adaptable Interface ......................................... 48 2.4 Assembly and Disassembly for Adaptation Operations ........... 51 2.4.1 Modeling of Assembly Operations ...................... 51 2.4.2 Modeling of Disassembly Operations ................... 56 2.5 Summary .................................................. 57 References ..................................................... 58 3 Evaluation for Adaptable Design ................................ 61 3.1 Evaluation of Engineering Design ............................. 61 3.2 Measures of Adaptabilities ................................... 61 3.2.1 Specific Product Adaptability .......................... 65 3.2.2 Specific Design Adaptability ........................... 72 3.2.3 General Product Adaptability .......................... 73 3.2.4 General Design Adaptability ........................... 76 3.3 Adaptabilities in Design Evaluation ........................... 78 3.4 Evaluation of Adaptabilities Based on Information Entropy ....... 83 3.4.1 Functions, Structures, and Parameters of Adaptable Products ............................................ 83 3.4.2 Information Entropies for Evaluation of Adaptabilities .... 84 3.5 Summary .................................................. 89 References ..................................................... 89 4 Processes and Methods for Adaptable Design ..................... 91 4.1 Processes for Adaptable Design .............................. 91 4.1.1 Processes for Adaptable Design Considering Product Adaptability ......................................... 91 4.1.2 Processes for Adaptable Design Considering Design Adaptability ......................................... 93 4.2 Elements in Adaptable Design Processes ....................... 93 4.2.1 Design Requirements ................................. 93 4.2.2 Design Candidates ................................... 96 4.2.3 Design Evaluation .................................... 102 4.2.4 Design Optimization ................................. 104 4.3 Robust Adaptable Design .................................... 107 4.3.1 Robust Adaptable Design Considering Changes of Requirements and Parameters ....................... 107 4.3.2 Robust Adaptable Design Considering Changes of Product Configurations ............................. 119 4.3.3 Robust Adaptable Design of Open Architecture Products ............................................ 127 4.4 Adaptable Design Considering Adaptation Operations ........... 136 4.4.1 Assembly Operation Sequences for Adaptable Design ..... 136 4.4.2 Disassembly Operation Sequences for Adaptable Design ............................................. 1394.5 Adaptable Design Considering Mass Personalization ............ 141 4.5.1 Module Planning for OAPs ............................ 141 4.5.2 Detail Design of OAPs ................................ 143 4.5.3 Product Personalization ............................... 145 4.6 Summary .................................................. 146 References ..................................................... 146 5 Tool and Techniques for Adaptable Design ........................ 149 5.1 Modular Design Tools ....................................... 149 5.1.1 Modularization for Adaptable Design Using Matrix Approach ........................................... 149 5.1.2 Pattern Clustering Approach ........................... 164 5.2 Optimization Tools ......................................... 169 5.2.1 Constrained Optimization ............................. 169 5.2.2 Multi-objective Optimization .......................... 173 5.2.3 Multi-level Optimization .............................. 175 5.2.4 Global Optimization .................................. 177 5.3 Web-Based Tools for Adaptable Design ........................ 185 5.3.1 Introduction ......................................... 185 5.3.2 Development of Web-Based Tools for Adaptable Design ............................................. 186 5.3.3 Applications of Web-Based Tools in Adaptable Design .... 188 5.4 Virtual Reality for Adaptable Product Design and Evaluation ..... 192 5.4.1 Introduction ......................................... 192 5.4.2 A VR-Based User Interactive System ................... 194 5.4.3 Case Study—A VR System for Food Truck Design ....... 198 5.4.4 Case Study—A VR System for Caravans Design ......... 205 5.4.5 Comments and Analysis .............................. 206 5.5 Summary .................................................. 208 References ..................................................... 208 6 Applications of Adaptable Design ................................ 211 6.1 Adaptable Design of CNC Machine Tools Structure ............. 211 6.1.1 Redesign Process of a Machine Structure ................ 212 6.1.2 Evaluation Criteria for the Redesign Process ............. 214 6.1.3 Improvement of the Entire Machine .................... 220 6.1.4 Development of a New Generation of YH605 Gear Cutting Machine ..................................... 220 6.1.5 Analysis and Discussion of Redesign Results ............ 222 6.2 Design of an Adaptable Product Platform for Heavy-Duty Gantry Milling Machines .................................... 223 6.2.1 Design of the Adaptable Product Platform (APP) ......... 223 6.2.2 Implementation of a Heavy-Duty Gantry Milling Machine with APP ................................... 2326.3 Adaptable Design for Mass Personalization .................... 236 6.3.1 Introduction ......................................... 236 6.3.2 General Background .................................. 237 6.3.3 Methods of Design for Mass Personalization ............. 241 6.3.4 Case Study .......................................... 241 6.3.5 Personalization Analysis .............................. 248 6.3.6 Concluding Remarks ................................. 249 6.4 Adaptable Design of Coating Machines ........................ 250 6.5 Design of an Open Architecture Paper-Bag Folding Machine ..... 256 6.5.1 An Initial Design of the Open Interface .................. 257 6.5.2 Modified/Improved Design of Open Interface of the Paper-Bag Folding Machine ...................... 260 6.6 Design of an Adaptable Equipment for Testing of Generators ..... 263 6.6.1 The Design Problem .................................. 263 6.6.2 The Optimal Adaptable Design ........................ 264 6.6.3 Comparative Studies .................................. 270 6.7 Adaptable Design of a Rotation Table ......................... 274 6.7.1 Assembly Modelling ................................. 275 6.7.2 Evaluation of Modules Assembled in a Single Subassembly ........................................ 277 6.7.3 Assembly Sequence Planning for Parts Inside Module of the Rotational Table ................................ 278 6.7.4 Assembly Sequence Planning for Modules ............... 279 6.8 Summary .................................................. 280 References ..................................................... 280 7 Concluding Remarks and Development Trends .................... 281 7.1 Concluding Remarks ........................................ 281 7.2 Development Trends ........................................ 283 7.3 Summary .................................................. 288 References ..................................................... 288