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E-grāmata: Taking the LEAP: The Methods and Tools of the Linked Engineering and Manufacturing Platform (LEAP)

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Edited by (Professor of ICT in Sustainable Manufacturing at Ecole Polytechnique Federale de Lausanne, France)
  • Formāts: EPUB+DRM
  • Izdošanas datums: 20-Jun-2016
  • Izdevniecība: Academic Press Inc
  • Valoda: eng
  • ISBN-13: 9780444637543
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  • Formāts: EPUB+DRM
  • Izdošanas datums: 20-Jun-2016
  • Izdevniecība: Academic Press Inc
  • Valoda: eng
  • ISBN-13: 9780444637543
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Taking the LEAP: The Methods and Tools of the Linked Engineering and Manufacturing Platform (LEAP) shows how to use the LEAP methodology to organize all product lifecycle information needed to drive engineering and manufacturing processes, and also provides knowledge exploitation solutions to support design decisions. This book not only explains in detail what LEAP is and how to use it, but also provides LEAP case studies from sectors such as auto manufacturing and offshore engineering. The intensity of competition in the global manufacturing industry has increased dramatically in the past decade, presenting challenges and opportunities to new operators and traditional centers alike. Using the latest ICT developments effectively is increasingly important in order to meet demands for mass customization, sustainability, and improved productivity. To achieve these goals, the Linked Engineering and manufacturing Platform (LEAP) was developed as an integrated information system for manufacturing design. Discusses how LEAP creates a new data environment for all stakeholders in the manufacturing industry, which will improve customization, sustainability, and productivityDevises an interoperability system to gather and coordinate digital data from machines and systems across the manufacturing supply chainProvides standards for the Internet of ThingsIncludes case study data from companies at the cutting edge of ICT in manufacturing such as SAP, Volkswagen, and UBITECH

Papildus informācija

How to use state-of-the-art Linked Engineering and Manufacturing Platform (LEAP) to organize all product lifecycle information needed to drive engineering and manufacturing processes-from overcoming interoperability and standards problems to using the latest ICT technology in manufacturing for improved collaboration, efficiency, flexibility, and productivity
Contributors ix
Preface xi
1 Introduction
1(10)
D. Kiritsis
A. Mocan
1.1 Objective 1: data federation
2(1)
1.2 Objective 2: context-driven access and the analysis of federated information
3(1)
1.3 Objective 3: user collaboration
4(1)
1.4 Objective 4: feedback into existing systems
5(1)
1.5 The LinkedDesign approach
6(5)
References
10(1)
2 LEAP Data and Knowledge Integration Infrastructure
11(30)
E. Peukert
C. Wartner
2.1 Overview
11(3)
2.2 Smart link graph
14(3)
2.3 Source wrappers/mediator
17(4)
2.4 Data matching and linking
21(8)
2.5 Smart link tools and applications
29(10)
2.6 Conclusions
39(2)
References
39(2)
3 LEAP Semantics
41(34)
S. El Kadiri
A. Milicic
K. Pardalis
E. Peukert
3.1 Introduction
41(1)
3.2 Semantic technologies
42(8)
3.3 LEAP ontology and rule base
50(20)
3.4 Integration with LEAP services
70(1)
3.5 Conclusions
71(4)
References
72(3)
4 LEAP Product and Manufacturing Design Support System
75(24)
D. Cerri
S. Terzi
4.1 Introduction
75(4)
4.2 Life cycle optimization in the LEAP
79(14)
4.3 Life cycle optimization in the COMAU case
93(3)
4.4 Conclusions
96(3)
References
97(2)
5 LEAP Collaboration System
99(26)
K. Kristensen
J. Krogstie
D. Ahlers
M. Mehrpoor
5.1 Introduction
99(4)
5.2 Lean engineering collaboration
103(8)
5.3 Context-aware recommender systems and knowledge access improvement in multidisciplinary engineering projects
111(3)
5.4 Toward an integrated collaboration system---managing collaboration for competitive advantage
114(3)
5.5 Conclusions
117(8)
References
118(2)
Appendix A Collaborative diagnostics: tools for lean engineering collaboration system analysis and optimization
120(5)
6 LEAP Interoperability Standards
125(20)
K. Framling
A. Buda
S. Kubler
J. Cassina
E. Coscia
S. Parrotta
S. Terzi
D. Cerri
6.1 Background
125(2)
6.2 Internet of things standards
127(5)
6.3 Lifecycle management standards for the internet of things
132(4)
6.4 Applications
136(6)
6.5 Conclusions
142(3)
References
142(3)
7 LEAP Virtual Obeya
145(30)
M. Rossi
M. Cocco
S. Terzi
K. Kristensen
S. Parrotta
J. Krogstie
D. Ahlers
7.1 Introduction
145(1)
7.2 Toward a global collaborative environment
146(13)
7.3 The LEAP virtual obeya in the real world---use cases
159(5)
7.4 Evaluation
164(6)
7.5 Conclusions
170(5)
References
172(3)
8 LEAP Use Cases
175(16)
A. Milicic
S. El Kadiri
F. Perales
S. Parrotta
G. Iversen
8.1 Introduction
175(1)
8.2 Metrology-driven manufacturing in the automotive industry
176(3)
8.3 Manufacturing design based on plant lifecycle costs
179(7)
8.4 Knowledge reuse in automated design for offshore engineering
186(4)
8.5 Conclusions
190(1)
Index 191
Dimitris Kiritsis is a Professor of ICT in Sustainable Manufacturing at the Institute of Mechanical Engineering at EPFL, Switzerland. He is the Chair of IFIP Working Group 5.7 Advances in Production Management Systems, a board member of Manufacture-CH, and was a member of the recently concluded EU-funded Linked Design project. His research interests include closed loop lifecycle management, lifecycle performance evaluation, and product-process modeling.
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