E-Book, Englisch, 714 Seiten
Krause The Future of Product Development
1. Auflage 2007
ISBN: 978-3-540-69820-3
Verlag: Springer Berlin Heidelberg
Format: PDF
Kopierschutz: 1 - PDF Watermark
Proceedings of the 17th CIRP Design Conference
E-Book, Englisch, 714 Seiten
ISBN: 978-3-540-69820-3
Verlag: Springer Berlin Heidelberg
Format: PDF
Kopierschutz: 1 - PDF Watermark
These proceedings represent trends in Product Development concerning industrial vendors and scientific research aspects. Coverage includes the following topics are covered: Design Theory, Product Design, Requirements, Collaborative Engineering, Complex Design, Mechatronics, Reverse Engineering, Virtual Prototyping, CAE, KBE and PLM. The papers presented in this book show that answers can only be composed out of a variety of solutions where psychological, economical and technical research results are taken into account.
Prof. Dr.-Ing. F.-L. Krause is head of the division 'Virtual Product Creation' at the Fraunhofer Institute for Production Systems and Design Technology (IPK) in Berlin. He also has a chair for 'Industrial Information Technology' at the Institute for Machine Tools and Factory Management at the Technical University of Berlin.
Autoren/Hrsg.
Weitere Infos & Material
1;Preface;5
2;Sponsors of the 17th CIRP Design Conference;7
3;Table of Contents;12
4;User Keynotes;20
4.1;PDM/ EDM as Integration Layer for Continous Workflows Based on Relevant Product Data;20
4.2;DMU@Airbus – Evolution of the Digital Mock-up (DMU) at Airbus to the Centre of Aircraft Development;22
4.3;Knowledge-based Design - An Integrated Approach;32
5;Vendor Keynotes;42
5.1;Cross Disciplinary Methods for Accelerated Product Delivery;42
5.2;Advances in PLM Methodologies Driving Needs for New Competencies;47
5.3;A Systematic Approach to Product Development Best Practises;57
6;Design Theory;60
6.1;SPALTEN Matrix – Product Development Process on the Basis of Systems Engineering and Systematic Problem Solving;60
6.2;How to Measure the Success Potential and the Degree of Innovation of Technical Ideas and Products;70
6.3;Towards a Generic Model of Smart Synthesis Tools;81
6.4;Improving Product Development by Design-for-X (DfX) Support;91
6.5;Looking at “DFX” and “Product Maturity” from the Perspective of a New Approach to Modelling Product and Product Development Processes;101
6.6;Support of Design Engineering Activity for a Systematic Improvement of Products;121
6.7;The STEP Standards in Semantic Web – A Way to Integrate the Product Development Chain;131
6.8;Configuration instead of New Design using Reference Product Structures;141
6.9;Implications of Complexity in Early Stages of Innovation Processes for the Definition of Heuristic Engineering Methods;151
6.10;Trends of Evolutions and Patent Analysis: An Application in the Household Appliances Field;161
6.11;Understanding the Link between Aesthetics and Engineering in Product Design;171
6.12;Preliminary Study of Cognitive Model of Designer’s Creativity by Using Formal Protocol Analysis;181
6.13;Results of an Industry Survey on the Application of Dependability Oriented Design Methods;191
6.14;Holistic Methods in Product Development;201
7;Requirements;212
7.1;A Holistic Approach for Integrated Requirements Modeling in the Product Development Process;212
7.2;Multi-level Representation for Supporting the Conceptual Design Phase of Modular Products;223
7.3;Dependency of the Product Gestalt on Requirements in Industrial Design Engineering;239
7.4;Modeling of Heterogeneous Systems in Early Design Phases;260
7.5;Requirement-oriented Configuration of Parallel Robotic Systems;272
7.6;A Scandinavian Model of Innovative Product Development;282
8;Collaborative Engineering;292
8.1;Toward a Framework for Effective Collaborative Product Development;292
8.2;Scalable Product Development in a Collaborative Environment;303
8.3;A New Concept for Collaborative Product & Process Design within a Human-oriented Collaborative Manufacturing Environment;313
8.4;Towards a Framework for Managing Conceptual Knowledge in Distributed and Collaborative R&D Projects;323
8.5;DEPNET: A Methodology for Identifying and Qualifying Dependencies Between Engineering Data;331
8.6;Distributed Product Development in the Framework of Modern Engineering Education;343
8.7;Romanian Research Network for Integrated Product and Process Engineering – INPRO;353
9;Complex Design, Mechatronics;363
9.1;Facing Multi-Domain Complexity in Product Development;363
9.2;Using Evolutionary Algorithms to Support the Design of Self-optimizing Mechatronic Systems;374
10;Reverse Engineering;397
10.1;Digital Processing and Fusion of 3D Data from Emerging Non-Contact 3D Measurement Technologies;397
10.2;3D Digitalization for Patrimonial Machines;407
10.3;Knowledge Reengineering for Reverse Engineering Purposes;430
11;Virtual Prototyping;440
11.1;Extended Virtual Prototyping;440
11.2;MagicMirror & FootGlove: A New System for the Customized Shoe Try-on;450
11.3;Contact Pressure Calculation Methodologies in Aeronautic Gearboxes in the CAD Process;460
12;Product Design;472
12.1;Common Representation of Products and Services: A Necessity for Engineering Designers to Develop Product-Service Systems;472
12.2;About the Efficiency and Cost Reduction of Parallel Mixed-Model Assembly Lines;491
12.3;The Application of a Statistical Design of Experiment for Quantitative Analysis and Optimisation of Development Processes;501
13;PLM;511
13.1;PLM Services in Practice;511
13.2;Composite Applications Enabling Product Data Management Applying SOA Principles and Software Factory Methods;521
13.3;A Holistic, Methodical Approach to Evaluate the PDMS-capability of Companies;529
13.4;Lifecycle Information Model for Higher Order Bifurcated Sheet Metal Products;539
13.5;Simulation-based Multiple Project Management in Engineering Design;551
13.6;Towards "The Timeless Way of Product Lifecycle Management”;563
13.7;Development of a Strategy Tool for Environmental Compliance Management;573
14;KBE;583
14.1;Software Engineering and Knowledge Engineering: From Competition to Cooperation;583
14.2;Applying KBE Technologies to the Early Phases of Multidisciplinary Product Design;595
14.3;A Way to Manage Calculation Engineers' Knowledge ;604
14.4;On the Way to Knowledge Awareness in Early Design;614
14.5;Enhanced B-Rep Graph-based Feature Sequences Recognition using Manufacturing Constraints;624
14.6;Integration of Learning Aptitude into Technical Systems;646
15;Science Keynotes;672
15.1;Future Trends in Product Lifecycle Management (PLM);672
15.2;Modeling, Evaluation and Design of Product Quality under Disturbances throughout the Total Product Life Cycle;682
16;Closing Keynotes;692
16.1;Hype or Reality: Service Oriented Architecture in Product Lifecycle Management - How IBM Can Help You Achieve Innovation That Matters;692
16.2;The Future of Product Development in India;698
16.3;Virtual Product Development as an Engine for Innovation;709
