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Full Description
Collaborative product assembly design and assembly planning presents several newly-developed methodologies and applications for collaborative assembly design and assembly planning, two important steps during the product development life cycle. These benefits include effective and rapid assembly design and assembly planning, thereby reducing the development cost and helping manufacturers enhance profit. With increased development in computer technologies and the Internet, the traditional assembly design and assembly planning have evolved around collaborative assembly design and assembly planning to speed up the product development process. Research in this area has attracted much attention in the past decade. Based on research work in the past few years, this book will present several newly-developed methodologies and applications for collaborative assembly design and assembly planning to improve the efficiency of product development in a collaborative design environment.
Contents
List of figures, tables and listsAcknowledgementsPrefaceAbout the authorsChapter 1: IntroductionAbstract:1.1 Background1.2 Key issues in collaborative assembly design1.3 Key issues in collaborative assembly planning1.4 Organization of the bookChapter 2: Literature surveyAbstract:2.1 Survey on assembly design2.2 Survey on evaluation of the tolerance influence on product assemblability2.3 Survey on assembly planning2.4 Research works in this bookChapter 3: Collaborative assembly designAbstract:3.1 An assembly representation model for collaborative design3.2 Functions of the co-assembly representation model3.3 Design modification propagation control mechanism3.4 System implementation3.5 Case study3.6 SummaryChapter 4: Evaluation of product assemblability in different assembly sequencesAbstract:4.1 Tolerance categorization and representation4.2 Clearance in assembly and representation4.3 Using transformation matrices to conclude the propagation and accumulation of the geometric deviations4.4 Assemblability evaluation in different assembly sequences4.5 Case study4.6 SummaryChapter 5: Advanced assembly planning approach using a multi-objective genetic algorithmAbstract:5.1 Tolerance-based constraint in assembly planning5.2 Genetic search directions with fuzzy weights distribution5.3 Multi-objective genetic algorithm with multiple search directions5.4 Building the fitness function for assembly planning5.5 Case study5.6 SummaryChapter 6: Evaluation of assembly design from assembly planning redesignAbstract:6.1 The design problems identified from the assembly planning results6.2 The overall redesign guidelines from the assembly planning results6.3 SummaryChapter 7: Collaborative assembly planningAbstract:7.1 System framework and working mechanism7.2 The workflow of collaborative assembly planning7.3 Case study7.4 SummaryChapter 8: Conclusions and recommendationsAbstract:8.1 Conclusions8.2 Recommendations for future worksIndex
