| Preface | 5 |
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| Sponsors of the 17th CIRP Design Conference | 7 |
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| Table of Contents | 12 |
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| User Keynotes | 20 |
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| PDM/ EDM as Integration Layer for Continous Workflows Based on Relevant Product Data | 20 |
| DMU@Airbus – Evolution of the Digital Mock-up (DMU) at Airbus to the Centre of Aircraft Development | 22 |
| Knowledge-based Design - An Integrated Approach | 32 |
| Vendor Keynotes | 42 |
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| Cross Disciplinary Methods for Accelerated Product Delivery | 42 |
| Advances in PLM Methodologies Driving Needs for New Competencies | 47 |
| A Systematic Approach to Product Development Best Practises | 57 |
| Design Theory | 60 |
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| SPALTEN Matrix – Product Development Process on the Basis of Systems Engineering and Systematic Problem Solving | 60 |
| How to Measure the Success Potential and the Degree of Innovation of Technical Ideas and Products | 70 |
| Towards a Generic Model of Smart Synthesis Tools | 81 |
| Improving Product Development by Design-for-X (DfX) Support | 91 |
| Looking at “DFX” and “Product Maturity” from the Perspective of a New Approach to Modelling Product and Product Development Processes | 101 |
| Support of Design Engineering Activity for a Systematic Improvement of Products | 121 |
| The STEP Standards in Semantic Web – A Way to Integrate the Product Development Chain | 131 |
| Configuration instead of New Design using Reference Product Structures | 141 |
| Implications of Complexity in Early Stages of Innovation Processes for the Definition of Heuristic Engineering Methods | 151 |
| Trends of Evolutions and Patent Analysis: An Application in the Household Appliances Field | 161 |
| Understanding the Link between Aesthetics and Engineering in Product Design | 171 |
| Preliminary Study of Cognitive Model of Designer’s Creativity by Using Formal Protocol Analysis | 181 |
| Results of an Industry Survey on the Application of Dependability Oriented Design Methods | 191 |
| Holistic Methods in Product Development | 201 |
| Requirements | 212 |
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| A Holistic Approach for Integrated Requirements Modeling in the Product Development Process | 212 |
| Multi-level Representation for Supporting the Conceptual Design Phase of Modular Products | 223 |
| Dependency of the Product Gestalt on Requirements in Industrial Design Engineering | 239 |
| Modeling of Heterogeneous Systems in Early Design Phases | 260 |
| Requirement-oriented Configuration of Parallel Robotic Systems | 272 |
| A Scandinavian Model of Innovative Product Development | 282 |
| Collaborative Engineering | 292 |
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| Toward a Framework for Effective Collaborative Product Development | 292 |
| Scalable Product Development in a Collaborative Environment | 303 |
| A New Concept for Collaborative Product | 303 |
| 313 | 303 |
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| Towards a Framework for Managing Conceptual Knowledge in Distributed and Collaborative R | 303 |
| 323 | 303 |
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| DEPNET: A Methodology for Identifying and Qualifying Dependencies Between Engineering Data | 331 |
| Distributed Product Development in the Framework of Modern Engineering Education | 343 |
| Romanian Research Network for Integrated Product and Process Engineering – INPRO | 353 |
| Complex Design, Mechatronics | 363 |
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| Facing Multi-Domain Complexity in Product Development | 363 |
| Using Evolutionary Algorithms to Support the Design of Self-optimizing Mechatronic Systems | 374 |
| Reverse Engineering | 397 |
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| Digital Processing and Fusion of 3D Data from Emerging Non-Contact 3D Measurement Technologies | 397 |
| 3D Digitalization for Patrimonial Machines | 407 |
| Knowledge Reengineering for Reverse Engineering Purposes | 430 |
| Virtual Prototyping | 440 |
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| Extended Virtual Prototyping | 440 |
| MagicMirror | 440 |
| 450 | 440 |
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| Contact Pressure Calculation Methodologies in Aeronautic Gearboxes in the CAD Process | 460 |
| Product Design | 472 |
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| Common Representation of Products and Services: A Necessity for Engineering Designers to Develop Product-Service Systems | 472 |
| About the Efficiency and Cost Reduction of Parallel Mixed-Model Assembly Lines | 491 |
| The Application of a Statistical Design of Experiment for Quantitative Analysis and Optimisation of Development Processes | 501 |
| PLM | 511 |
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| PLM Services in Practice | 511 |
| Composite Applications Enabling Product Data Management Applying SOA Principles and Software Factory Methods | 521 |
| A Holistic, Methodical Approach to Evaluate the PDMS-capability of Companies | 529 |
| Lifecycle Information Model for Higher Order Bifurcated Sheet Metal Products | 539 |
| Simulation-based Multiple Project Management in Engineering Design | 551 |
| Towards | 551 |
| 563 | 551 |
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| Development of a Strategy Tool for Environmental Compliance Management | 573 |
| KBE | 583 |
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| Software Engineering and Knowledge Engineering: From Competition to Cooperation | 583 |
| Applying KBE Technologies to the Early Phases of Multidisciplinary Product Design | 595 |
| A Way to Manage Calculation Engineers' Knowledge | 604 |
| On the Way to Knowledge Awareness in Early Design | 614 |
| Enhanced B-Rep Graph-based Feature Sequences Recognition using Manufacturing Constraints | 624 |
| Integration of Learning Aptitude into Technical Systems | 646 |
| Science Keynotes | 672 |
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| Future Trends in Product Lifecycle Management (PLM) | 672 |
| Modeling, Evaluation and Design of Product Quality under Disturbances throughout the Total Product Life Cycle | 682 |
| Closing Keynotes | 692 |
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| Hype or Reality: Service Oriented Architecture in Product Lifecycle Management - How IBM Can Help You Achieve Innovation That Matters | 692 |
| The Future of Product Development in India | 698 |
| Virtual Product Development as an Engine for Innovation | 709 |
