Collaborative Product and Service Life Cycle Management for
(Sprache: Englisch)
"Collaborative Product and Service Life Cycle Management for a Sustainable World" gathers together papers from the 15th ISPE International Conference on Concurrent Engineering (CE2008), to stimulate the new thinking that is so crucial to our sustained...
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"Collaborative Product and Service Life Cycle Management for a Sustainable World" gathers together papers from the 15th ISPE International Conference on Concurrent Engineering (CE2008), to stimulate the new thinking that is so crucial to our sustained productivity enhancement and quality of life. It is already evident in this new century that the desire for sustainable development is increasingly driving the market to reach for new and innovative solutions that more effectively utilize the resources we have inherited from previous generations; with the obvious responsibility to future generations. Human productivity and progress can be positively engineered and managed in harmony with the provision and needs of our natural environment. One century on from the industrial revolution, this is now the time of the sustainable revolution; requiring holistic technological, process and people integrated solutions to sustained socio-economic enhancement.
The recognized requirement for advancements in Concurrent Engineering for sustainable productivity enhancement (improved quality of life) can be viewed positively. The basic aim of productivity enhancement is changing, from primarily seeking collaborative enterprise engineered solutions through a more restricted short-term market view. Rather, it is looking forward to a more expansive truly concurrent engineering approach to development that must be adopted in order to synthesize all of the far-reaching requirements and implications relating to products and their intended operation, service provision and end-of-life. It is already evident in this new century that the desire for sustainable development is increasingly driving the market to reach for new and innovative solutions that more effectively utilize the resources we have inherited from previous generations; with the obvious responsibility to future generations.
There is a need to rethink the way in which we make things in order to revise the 'cradle to grave' philosophy of the industrial revolution, which can be viewed as an extreme relative to nature's principle of sustainable evolution. Human productivity and progress can be positively engineered and managed in harmony with the provision and needs of our natural environment. One century on from the industrial revolution, this is now the time of the sustainable revolution; requiring holistic technological, process and people integrated solutions to sustained socio-economic enhancement. It might surprise Albert Einstein that he rather well encapsulated the nature of this 'evolutionary struggle' when he stated: "The world will not evolve past its current state of crisis by using the same thinking that created the situation".
Collaborative Product and Service Life Cycle Management for a Sustainable World gathers together papers from the 15th ISPE International Conference on Concurrent Engineering (CE2008), to stimulate the new thinking that is so crucial to our sustained productivity enhancement and quality of life. industrial revolution, which can be viewed as an extreme relative to nature's principle of sustainable evolution. Human productivity and progress can be positively engineered and managed in harmony with the provision and needs of our natural environment. One century on from the industrial revolution, this is now the time of the sustainable revolution; requiring holistic technological, process and people integrated solutions to sustained socio-economic enhancement. It might surprise Albert Einstein that he rather well encapsulated the nature of this 'evolutionary struggle' when he stated: "The world will not evolve past its current state of crisis by using the same thinking that created the situation".
Collaborative Product and Service Life Cycle Management for a Sustainable World gathers together papers from the 15th ISPE International Conference on Concurrent Engineering (CE2008), to stimulate the new thinking that is so crucial to our sustained pro
There is a need to rethink the way in which we make things in order to revise the 'cradle to grave' philosophy of the industrial revolution, which can be viewed as an extreme relative to nature's principle of sustainable evolution. Human productivity and progress can be positively engineered and managed in harmony with the provision and needs of our natural environment. One century on from the industrial revolution, this is now the time of the sustainable revolution; requiring holistic technological, process and people integrated solutions to sustained socio-economic enhancement. It might surprise Albert Einstein that he rather well encapsulated the nature of this 'evolutionary struggle' when he stated: "The world will not evolve past its current state of crisis by using the same thinking that created the situation".
Collaborative Product and Service Life Cycle Management for a Sustainable World gathers together papers from the 15th ISPE International Conference on Concurrent Engineering (CE2008), to stimulate the new thinking that is so crucial to our sustained productivity enhancement and quality of life. industrial revolution, which can be viewed as an extreme relative to nature's principle of sustainable evolution. Human productivity and progress can be positively engineered and managed in harmony with the provision and needs of our natural environment. One century on from the industrial revolution, this is now the time of the sustainable revolution; requiring holistic technological, process and people integrated solutions to sustained socio-economic enhancement. It might surprise Albert Einstein that he rather well encapsulated the nature of this 'evolutionary struggle' when he stated: "The world will not evolve past its current state of crisis by using the same thinking that created the situation".
Collaborative Product and Service Life Cycle Management for a Sustainable World gathers together papers from the 15th ISPE International Conference on Concurrent Engineering (CE2008), to stimulate the new thinking that is so crucial to our sustained pro
Inhaltsverzeichnis zu „Collaborative Product and Service Life Cycle Management for “
Part I: Collaborative Engineering Distributed Collaborative Layout Design in Service-Oriented Architecture Resolving Collaborative Design Conflicts Through an Ontology-based Approach Creating Value Within and Between European Regions in the Photovoltaic Sector Agent-based Collaborative Maintenance Chain for Engineering Asset Management Part II: Collaborative Engineering Systems Research on the Distributed Concurrent and Collaborative Design Platform Architecture Based on SOA Collaborative Architecture Based on Web-Services From Internet to Cross-Organisational Networking Grid-based Virtual Collaborative Facility: Concurrent and Collaborative Engineering for Space Projects
Part III: Cost Engineering Cost CENTRE-ing: An Agile Cost Estimating Methodology for Procurement Cost of Physical Vehicle Crash Testing Estimating Cost at the Conceptual Design Stage to Optimize Design in terms of Performance and Cost
Part IV: DRONE Design for Sound Transmission Loss through an Enclosure of Generator Set Design Tool Methodology for Simulation of Enclosure Cooling Performance Using Virtual Engineering Techniques to Aid with Design Trade-Off Studies for an Enclosed Generator Set Sound Transmission Loss of Movable Double-leaf Partition Wall Modelling Correlated and Uncorrelated Sound Sources
Part V: Interoperability Backup Scheduling in Clustered P2P Network Towards an Intelligent CAD Models Sharing Based on Semantic Web Technologies Towards an Approach for Multiple-View Semantic Model in Product Development
Part VI: Integrated Design Development of a Lightweight Knowledge Based Design System as a Business Asset to Support Advanced Fixture and Tooling Design Near Net-shape Manufacturing Costs Modelling the Life Cycle Cost of Aero-engine Maintenance Value Driven Design
Part VII: Integrated Wing A Generic Life Cycle Cost Modeling Approach for Aircraft System Cost-Efficient Materials in Aerospace: Composite vs Aluminium A Multi-Fidelity Approach for Supporting
... mehr
Early Aircraft Design Decisions Cost Modelling of Composite Aerospace Parts and Assemblies
Part VIII: Integrated Product Process Development A Design Methodology for Module Interfaces Reducing the Standard Deviation When Integrating Process Planning and Production Scheduling Through the Use of Expert Systems in an Agent-based Environment Extracting Variant Product Concepts Through Customer Involvement Model QFD and CE as Methodologies for a Quality Assurance in Product Development
Part IX Information Systems Integration of Privilege Management Infrastructure and Workflow Management Systems A Comparative Analysis of Project Management Information Systems to Support Concurrent Engineering Location-Aware Tour Guide Systems in Museum PDM - University Student Monitoring Management System
Part X: Knowledge Based Engineering Multidisciplinary Design of Flexible Aircraft Service Oriented Concurrent Engineering with Hybrid Teams using a Multi-agent Task Environment Systems Engineering and Multi-disciplinary Design Optimization Application of a Knowledge Engineering Process to Support Engineering Design Application Development
Part XI: Knowledge Engineering Knowledge Based Optimization of the Manufacturing Processes Supported by Numerical Simulations of Production Chain Characterization of Products Strategic Planning : a Survey in Brazil Using Ontologies to Optimise Design-Driven Development
Part VIII: Integrated Product Process Development A Design Methodology for Module Interfaces Reducing the Standard Deviation When Integrating Process Planning and Production Scheduling Through the Use of Expert Systems in an Agent-based Environment Extracting Variant Product Concepts Through Customer Involvement Model QFD and CE as Methodologies for a Quality Assurance in Product Development
Part IX Information Systems Integration of Privilege Management Infrastructure and Workflow Management Systems A Comparative Analysis of Project Management Information Systems to Support Concurrent Engineering Location-Aware Tour Guide Systems in Museum PDM - University Student Monitoring Management System
Part X: Knowledge Based Engineering Multidisciplinary Design of Flexible Aircraft Service Oriented Concurrent Engineering with Hybrid Teams using a Multi-agent Task Environment Systems Engineering and Multi-disciplinary Design Optimization Application of a Knowledge Engineering Process to Support Engineering Design Application Development
Part XI: Knowledge Engineering Knowledge Based Optimization of the Manufacturing Processes Supported by Numerical Simulations of Production Chain Characterization of Products Strategic Planning : a Survey in Brazil Using Ontologies to Optimise Design-Driven Development
... weniger
Bibliographische Angaben
- 2008, 621 Seiten, 288 Schwarz-Weiß-Abbildungen, Maße: 16 x 24,1 cm, Gebunden, Englisch
- Herausgegeben: Richard Curran, Shuo-Yan Chou, Amy Trappey
- Verlag: Springer, London
- ISBN-10: 1848009712
- ISBN-13: 9781848009714
- Erscheinungsdatum: 18.08.2008
Sprache:
Englisch
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