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Knowledge grid :: toward cyber-physical society /

The Knowledge Grid is an intelligent and sustainable interaction environment that consists of autonomous individuals, self-organized semantic communities, adaptive networking mechanisms, evolving semantic link networks keeping meaningful connection between individuals, flows for dynamic resource sha...

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Bibliographische Detailangaben
1. Verfasser:	Zhuge, Hai
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Singapore : World Scientific, ©2012.
Ausgabe:	2nd ed.
Schlagworte:	Knowledge management. Semantic integration (Computer systems) Semantic networks (Information theory) Gestion des connaissances. Intégration sémantique (Systèmes informatiques) Réseaux sémantiques. COMPUTERS > Networking > Intranets & Extranets. COMPUTERS > Web > General. Knowledge management
Online-Zugang:	Volltext
Zusammenfassung:	The Knowledge Grid is an intelligent and sustainable interaction environment that consists of autonomous individuals, self-organized semantic communities, adaptive networking mechanisms, evolving semantic link networks keeping meaningful connection between individuals, flows for dynamic resource sharing, and mechanisms supporting effective resource management and providing appropriate knowledge services for learning, innovation, teamwork, problem solving, and decision making. This book presents its methodology, theory, models and applications systematically for the first time. Its second editio.
Beschreibung:	Previous edition published in 2004.
Beschreibung:	1 online resource (xv, 506 pages) : illustrations
Bibliographie:	Includes bibliographical references and index.
ISBN:	9789814291781 9814291781 9789814439954 9814439959

Internformat

MARC


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100	1		\|a Zhuge, Hai.
245	1	0	\|a Knowledge grid : \|b toward cyber-physical society / \|c Hai Zhuge.
250			\|a 2nd ed.
260			\|a Singapore : \|b World Scientific, \|c ©2012.
300			\|a 1 online resource (xv, 506 pages) : \|b illustrations
336			\|a text \|b txt \|2 rdacontent
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500			\|a Previous edition published in 2004.
504			\|a Includes bibliographical references and index.
520			\|a The Knowledge Grid is an intelligent and sustainable interaction environment that consists of autonomous individuals, self-organized semantic communities, adaptive networking mechanisms, evolving semantic link networks keeping meaningful connection between individuals, flows for dynamic resource sharing, and mechanisms supporting effective resource management and providing appropriate knowledge services for learning, innovation, teamwork, problem solving, and decision making. This book presents its methodology, theory, models and applications systematically for the first time. Its second editio.
505	0		\|a 1. The knowledge grid methodology. 1.1. The knowledge space -- Knowledge as a space. 1.2. The cyber space. 1.3. Effort toward the intelligent interconnection environment. 1.4. Challenge and opportunity. 1.5. The knowledge grid environment. 1.6. Epistemology and knowledge. 1.7. Ontology. 1.8. System methodology. 1.9. Dynamic knowledge management. 1.10. The knowledge grid as a research area -- 2. The semantic link network. 2.1. The idea of mapping. 2.2. Basic concepts and characteristics. 2.3. Relational reasoning and the semantic space. 2.4. An algebraic model of the SLN. 2.5. SLN normalization. 2.6. Constraints and displaying. 2.7. SLN ranking. 2.8. Implementation of SLN operations. 2.9. SLN analogical reasoning. 2.10. Dynamic SLN. 2.11. SLN abstraction. 2.12. Application: SLN-based image retrieval. 2.13. Application: Active Document Framework (ADF). 2.14. Application: e-learning. 2.15. Potential applications, relevant work and Q & A. 2.16. SLN 2.0: Autonomous semantic data model. 2.17. Probabilistic semantic link network. 2.18. Discovering semantic link network. 2.19. SLN 3.0: Cyber-physical-socio-mental network. 2.20. Principles of mental concepts. 2.21. Discussion: philosophy, language and semantics -- 3. A resource space model. 3.1. Examples of using multi-dimensional classifications. 3.2. The virtual grid. 3.3. The Resource Space Model (RSM). 3.4. Criteria for designing resource spaces. 3.5. Designing resource spaces. 3.6. Representation of resources. 3.7. The Resource Using Mechanism (RUM). 3.8. Comparisons. 3.9. Dealing with exponential growth of resources. 3.10. Extension of the resource space model. 3.11. Integrity constraint for the resource space model. 3.12. Storage for resource space and adaptability. 3.13. Application: faceted navigation. 3.14. Application: faceted navigation. 3.14. Application: personal resource space. 3.15. The dimension -- 4. The single semantic image. 4.1. Obtaining single semantic image from multi-facet views. 4.2. Combining SLN and RSM. 4.3. The SSeI mechanism. 4.4. The single semantic image query language. 4.5. SSeIQL syntax specification. 4.6. The programming environment. 4.7. The single semantic image browser. 4.8. The SSeI in a peer-to-peer semantic link network. 4.9. Abstraction level, time, epistemology, location and space. 4.10. A semantic lens. 4.11. A semantic lens for text visualization. 4.12. Single semantic image through multiple channels. 4.13. Philosophical discussion -- 5. Knowledge flow. 5.1. Concept. 5.2. A knowledge flow process model. 5.3. Peer-to-peer knowledge sharing. 5.4. Knowledge intensity. 5.5. Knowledge flow principles. 5.6. Computational model of knowledge intensity. 5.7. Knowledge spiral model. 5.8. Knowledge flow network planning. 5.9. Resource-mediated knowledge flows. 5.10. Exploring knowledge flows.
505	8		\|a Exploring scale-free network. 6.1. Concepts. 6.2. The topologies of some real networks. 6.3. Random graph theory. 6.4. The small-world theory. 6.5. Modeling measures for live scale-free networks. 6.6. Modeling actual scale-free network. 6.7. Summary and implications -- 7. Topological centrality in social network. 7.1. Principles of influence. 7.2. Basic concept. 7.3. Calculating topological centrality. 7.4. Discovering research communities. 7.5. Discovering backbone in research network. 7.6. Discussion -- 8. Decentralized peer-to-peer recommendation and query. 8.2. Basic idea and architecture. 8.3. Semantic links for peer-to-peer networking. 8.4. Communities in P2P-SLN. 8.5. Routing strategies and process. 8.6. Self-organization of communities and evolution. 8.7. Application and experiment. 8.8. Performance of P2P-SLN. 8.9. Incorporating recommendation. 8.10. Toward P2P knowledge flow networking -- 9. P2P semantic overlay networks. 9.1. Structure approaches. 9.2. Unstructured approaches. 9.3. Discussion -- 10. The energy-knowledge grid. 10.1. The knowledge grid meets the smart grid. 10.2. Architecture and characteristics. 10.3. Multi-dimensional devices and requirements. 10.4. Multi-layer complex networks.
650		0	\|a Knowledge management. \|0 http://id.loc.gov/authorities/subjects/sh97007353
650		0	\|a Semantic integration (Computer systems) \|0 http://id.loc.gov/authorities/subjects/sh2004000479
650		0	\|a Semantic networks (Information theory) \|0 http://id.loc.gov/authorities/subjects/sh92004914
650		6	\|a Gestion des connaissances.
650		6	\|a Intégration sémantique (Systèmes informatiques)
650		6	\|a Réseaux sémantiques.
650		7	\|a COMPUTERS \|x Networking \|x Intranets & Extranets. \|2 bisacsh
650		7	\|a COMPUTERS \|x Web \|x General. \|2 bisacsh
650		7	\|a Knowledge management \|2 fast
650		7	\|a Semantic integration (Computer systems) \|2 fast
650		7	\|a Semantic networks (Information theory) \|2 fast
758			\|i has work: \|a The knowledge grid (Text) \|1 https://id.oclc.org/worldcat/entity/E39PCFvHVq9Bb4DMfGdCQkDRBq \|4 https://id.oclc.org/worldcat/ontology/hasWork
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contents	1. The knowledge grid methodology. 1.1. The knowledge space -- Knowledge as a space. 1.2. The cyber space. 1.3. Effort toward the intelligent interconnection environment. 1.4. Challenge and opportunity. 1.5. The knowledge grid environment. 1.6. Epistemology and knowledge. 1.7. Ontology. 1.8. System methodology. 1.9. Dynamic knowledge management. 1.10. The knowledge grid as a research area -- 2. The semantic link network. 2.1. The idea of mapping. 2.2. Basic concepts and characteristics. 2.3. Relational reasoning and the semantic space. 2.4. An algebraic model of the SLN. 2.5. SLN normalization. 2.6. Constraints and displaying. 2.7. SLN ranking. 2.8. Implementation of SLN operations. 2.9. SLN analogical reasoning. 2.10. Dynamic SLN. 2.11. SLN abstraction. 2.12. Application: SLN-based image retrieval. 2.13. Application: Active Document Framework (ADF). 2.14. Application: e-learning. 2.15. Potential applications, relevant work and Q & A. 2.16. SLN 2.0: Autonomous semantic data model. 2.17. Probabilistic semantic link network. 2.18. Discovering semantic link network. 2.19. SLN 3.0: Cyber-physical-socio-mental network. 2.20. Principles of mental concepts. 2.21. Discussion: philosophy, language and semantics -- 3. A resource space model. 3.1. Examples of using multi-dimensional classifications. 3.2. The virtual grid. 3.3. The Resource Space Model (RSM). 3.4. Criteria for designing resource spaces. 3.5. Designing resource spaces. 3.6. Representation of resources. 3.7. The Resource Using Mechanism (RUM). 3.8. Comparisons. 3.9. Dealing with exponential growth of resources. 3.10. Extension of the resource space model. 3.11. Integrity constraint for the resource space model. 3.12. Storage for resource space and adaptability. 3.13. Application: faceted navigation. 3.14. Application: faceted navigation. 3.14. Application: personal resource space. 3.15. The dimension -- 4. The single semantic image. 4.1. Obtaining single semantic image from multi-facet views. 4.2. Combining SLN and RSM. 4.3. The SSeI mechanism. 4.4. The single semantic image query language. 4.5. SSeIQL syntax specification. 4.6. The programming environment. 4.7. The single semantic image browser. 4.8. The SSeI in a peer-to-peer semantic link network. 4.9. Abstraction level, time, epistemology, location and space. 4.10. A semantic lens. 4.11. A semantic lens for text visualization. 4.12. Single semantic image through multiple channels. 4.13. Philosophical discussion -- 5. Knowledge flow. 5.1. Concept. 5.2. A knowledge flow process model. 5.3. Peer-to-peer knowledge sharing. 5.4. Knowledge intensity. 5.5. Knowledge flow principles. 5.6. Computational model of knowledge intensity. 5.7. Knowledge spiral model. 5.8. Knowledge flow network planning. 5.9. Resource-mediated knowledge flows. 5.10. Exploring knowledge flows. Exploring scale-free network. 6.1. Concepts. 6.2. The topologies of some real networks. 6.3. Random graph theory. 6.4. The small-world theory. 6.5. Modeling measures for live scale-free networks. 6.6. Modeling actual scale-free network. 6.7. Summary and implications -- 7. Topological centrality in social network. 7.1. Principles of influence. 7.2. Basic concept. 7.3. Calculating topological centrality. 7.4. Discovering research communities. 7.5. Discovering backbone in research network. 7.6. Discussion -- 8. Decentralized peer-to-peer recommendation and query. 8.2. Basic idea and architecture. 8.3. Semantic links for peer-to-peer networking. 8.4. Communities in P2P-SLN. 8.5. Routing strategies and process. 8.6. Self-organization of communities and evolution. 8.7. Application and experiment. 8.8. Performance of P2P-SLN. 8.9. Incorporating recommendation. 8.10. Toward P2P knowledge flow networking -- 9. P2P semantic overlay networks. 9.1. Structure approaches. 9.2. Unstructured approaches. 9.3. Discussion -- 10. The energy-knowledge grid. 10.1. The knowledge grid meets the smart grid. 10.2. Architecture and characteristics. 10.3. Multi-dimensional devices and requirements. 10.4. Multi-layer complex networks.
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illustrated	Illustrated
indexdate	2024-11-27T13:25:02Z
institution	BVB
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publisher	World Scientific,
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spelling	Zhuge, Hai. Knowledge grid : toward cyber-physical society / Hai Zhuge. 2nd ed. Singapore : World Scientific, ©2012. 1 online resource (xv, 506 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Previous edition published in 2004. Includes bibliographical references and index. The Knowledge Grid is an intelligent and sustainable interaction environment that consists of autonomous individuals, self-organized semantic communities, adaptive networking mechanisms, evolving semantic link networks keeping meaningful connection between individuals, flows for dynamic resource sharing, and mechanisms supporting effective resource management and providing appropriate knowledge services for learning, innovation, teamwork, problem solving, and decision making. This book presents its methodology, theory, models and applications systematically for the first time. Its second editio. 1. The knowledge grid methodology. 1.1. The knowledge space -- Knowledge as a space. 1.2. The cyber space. 1.3. Effort toward the intelligent interconnection environment. 1.4. Challenge and opportunity. 1.5. The knowledge grid environment. 1.6. Epistemology and knowledge. 1.7. Ontology. 1.8. System methodology. 1.9. Dynamic knowledge management. 1.10. The knowledge grid as a research area -- 2. The semantic link network. 2.1. The idea of mapping. 2.2. Basic concepts and characteristics. 2.3. Relational reasoning and the semantic space. 2.4. An algebraic model of the SLN. 2.5. SLN normalization. 2.6. Constraints and displaying. 2.7. SLN ranking. 2.8. Implementation of SLN operations. 2.9. SLN analogical reasoning. 2.10. Dynamic SLN. 2.11. SLN abstraction. 2.12. Application: SLN-based image retrieval. 2.13. Application: Active Document Framework (ADF). 2.14. Application: e-learning. 2.15. Potential applications, relevant work and Q & A. 2.16. SLN 2.0: Autonomous semantic data model. 2.17. Probabilistic semantic link network. 2.18. Discovering semantic link network. 2.19. SLN 3.0: Cyber-physical-socio-mental network. 2.20. Principles of mental concepts. 2.21. Discussion: philosophy, language and semantics -- 3. A resource space model. 3.1. Examples of using multi-dimensional classifications. 3.2. The virtual grid. 3.3. The Resource Space Model (RSM). 3.4. Criteria for designing resource spaces. 3.5. Designing resource spaces. 3.6. Representation of resources. 3.7. The Resource Using Mechanism (RUM). 3.8. Comparisons. 3.9. Dealing with exponential growth of resources. 3.10. Extension of the resource space model. 3.11. Integrity constraint for the resource space model. 3.12. Storage for resource space and adaptability. 3.13. Application: faceted navigation. 3.14. Application: faceted navigation. 3.14. Application: personal resource space. 3.15. The dimension -- 4. The single semantic image. 4.1. Obtaining single semantic image from multi-facet views. 4.2. Combining SLN and RSM. 4.3. The SSeI mechanism. 4.4. The single semantic image query language. 4.5. SSeIQL syntax specification. 4.6. The programming environment. 4.7. The single semantic image browser. 4.8. The SSeI in a peer-to-peer semantic link network. 4.9. Abstraction level, time, epistemology, location and space. 4.10. A semantic lens. 4.11. A semantic lens for text visualization. 4.12. Single semantic image through multiple channels. 4.13. Philosophical discussion -- 5. Knowledge flow. 5.1. Concept. 5.2. A knowledge flow process model. 5.3. Peer-to-peer knowledge sharing. 5.4. Knowledge intensity. 5.5. Knowledge flow principles. 5.6. Computational model of knowledge intensity. 5.7. Knowledge spiral model. 5.8. Knowledge flow network planning. 5.9. Resource-mediated knowledge flows. 5.10. Exploring knowledge flows. Exploring scale-free network. 6.1. Concepts. 6.2. The topologies of some real networks. 6.3. Random graph theory. 6.4. The small-world theory. 6.5. Modeling measures for live scale-free networks. 6.6. Modeling actual scale-free network. 6.7. Summary and implications -- 7. Topological centrality in social network. 7.1. Principles of influence. 7.2. Basic concept. 7.3. Calculating topological centrality. 7.4. Discovering research communities. 7.5. Discovering backbone in research network. 7.6. Discussion -- 8. Decentralized peer-to-peer recommendation and query. 8.2. Basic idea and architecture. 8.3. Semantic links for peer-to-peer networking. 8.4. Communities in P2P-SLN. 8.5. Routing strategies and process. 8.6. Self-organization of communities and evolution. 8.7. Application and experiment. 8.8. Performance of P2P-SLN. 8.9. Incorporating recommendation. 8.10. Toward P2P knowledge flow networking -- 9. P2P semantic overlay networks. 9.1. Structure approaches. 9.2. Unstructured approaches. 9.3. Discussion -- 10. The energy-knowledge grid. 10.1. The knowledge grid meets the smart grid. 10.2. Architecture and characteristics. 10.3. Multi-dimensional devices and requirements. 10.4. Multi-layer complex networks. Knowledge management. http://id.loc.gov/authorities/subjects/sh97007353 Semantic integration (Computer systems) http://id.loc.gov/authorities/subjects/sh2004000479 Semantic networks (Information theory) http://id.loc.gov/authorities/subjects/sh92004914 Gestion des connaissances. Intégration sémantique (Systèmes informatiques) Réseaux sémantiques. COMPUTERS Networking Intranets & Extranets. bisacsh COMPUTERS Web General. bisacsh Knowledge management fast Semantic integration (Computer systems) fast Semantic networks (Information theory) fast has work: The knowledge grid (Text) https://id.oclc.org/worldcat/entity/E39PCFvHVq9Bb4DMfGdCQkDRBq https://id.oclc.org/worldcat/ontology/hasWork Print version: Zhuge, Hai. Knowledge grid : toward cyber-physical society. Singapore : World Scientific, ©2012 9789814291774 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=503425 Volltext
spellingShingle	Zhuge, Hai Knowledge grid : toward cyber-physical society / 1. The knowledge grid methodology. 1.1. The knowledge space -- Knowledge as a space. 1.2. The cyber space. 1.3. Effort toward the intelligent interconnection environment. 1.4. Challenge and opportunity. 1.5. The knowledge grid environment. 1.6. Epistemology and knowledge. 1.7. Ontology. 1.8. System methodology. 1.9. Dynamic knowledge management. 1.10. The knowledge grid as a research area -- 2. The semantic link network. 2.1. The idea of mapping. 2.2. Basic concepts and characteristics. 2.3. Relational reasoning and the semantic space. 2.4. An algebraic model of the SLN. 2.5. SLN normalization. 2.6. Constraints and displaying. 2.7. SLN ranking. 2.8. Implementation of SLN operations. 2.9. SLN analogical reasoning. 2.10. Dynamic SLN. 2.11. SLN abstraction. 2.12. Application: SLN-based image retrieval. 2.13. Application: Active Document Framework (ADF). 2.14. Application: e-learning. 2.15. Potential applications, relevant work and Q & A. 2.16. SLN 2.0: Autonomous semantic data model. 2.17. Probabilistic semantic link network. 2.18. Discovering semantic link network. 2.19. SLN 3.0: Cyber-physical-socio-mental network. 2.20. Principles of mental concepts. 2.21. Discussion: philosophy, language and semantics -- 3. A resource space model. 3.1. Examples of using multi-dimensional classifications. 3.2. The virtual grid. 3.3. The Resource Space Model (RSM). 3.4. Criteria for designing resource spaces. 3.5. Designing resource spaces. 3.6. Representation of resources. 3.7. The Resource Using Mechanism (RUM). 3.8. Comparisons. 3.9. Dealing with exponential growth of resources. 3.10. Extension of the resource space model. 3.11. Integrity constraint for the resource space model. 3.12. Storage for resource space and adaptability. 3.13. Application: faceted navigation. 3.14. Application: faceted navigation. 3.14. Application: personal resource space. 3.15. The dimension -- 4. The single semantic image. 4.1. Obtaining single semantic image from multi-facet views. 4.2. Combining SLN and RSM. 4.3. The SSeI mechanism. 4.4. The single semantic image query language. 4.5. SSeIQL syntax specification. 4.6. The programming environment. 4.7. The single semantic image browser. 4.8. The SSeI in a peer-to-peer semantic link network. 4.9. Abstraction level, time, epistemology, location and space. 4.10. A semantic lens. 4.11. A semantic lens for text visualization. 4.12. Single semantic image through multiple channels. 4.13. Philosophical discussion -- 5. Knowledge flow. 5.1. Concept. 5.2. A knowledge flow process model. 5.3. Peer-to-peer knowledge sharing. 5.4. Knowledge intensity. 5.5. Knowledge flow principles. 5.6. Computational model of knowledge intensity. 5.7. Knowledge spiral model. 5.8. Knowledge flow network planning. 5.9. Resource-mediated knowledge flows. 5.10. Exploring knowledge flows. Exploring scale-free network. 6.1. Concepts. 6.2. The topologies of some real networks. 6.3. Random graph theory. 6.4. The small-world theory. 6.5. Modeling measures for live scale-free networks. 6.6. Modeling actual scale-free network. 6.7. Summary and implications -- 7. Topological centrality in social network. 7.1. Principles of influence. 7.2. Basic concept. 7.3. Calculating topological centrality. 7.4. Discovering research communities. 7.5. Discovering backbone in research network. 7.6. Discussion -- 8. Decentralized peer-to-peer recommendation and query. 8.2. Basic idea and architecture. 8.3. Semantic links for peer-to-peer networking. 8.4. Communities in P2P-SLN. 8.5. Routing strategies and process. 8.6. Self-organization of communities and evolution. 8.7. Application and experiment. 8.8. Performance of P2P-SLN. 8.9. Incorporating recommendation. 8.10. Toward P2P knowledge flow networking -- 9. P2P semantic overlay networks. 9.1. Structure approaches. 9.2. Unstructured approaches. 9.3. Discussion -- 10. The energy-knowledge grid. 10.1. The knowledge grid meets the smart grid. 10.2. Architecture and characteristics. 10.3. Multi-dimensional devices and requirements. 10.4. Multi-layer complex networks. Knowledge management. http://id.loc.gov/authorities/subjects/sh97007353 Semantic integration (Computer systems) http://id.loc.gov/authorities/subjects/sh2004000479 Semantic networks (Information theory) http://id.loc.gov/authorities/subjects/sh92004914 Gestion des connaissances. Intégration sémantique (Systèmes informatiques) Réseaux sémantiques. COMPUTERS Networking Intranets & Extranets. bisacsh COMPUTERS Web General. bisacsh Knowledge management fast Semantic integration (Computer systems) fast Semantic networks (Information theory) fast
subject_GND	http://id.loc.gov/authorities/subjects/sh97007353 http://id.loc.gov/authorities/subjects/sh2004000479 http://id.loc.gov/authorities/subjects/sh92004914
title	Knowledge grid : toward cyber-physical society /
title_auth	Knowledge grid : toward cyber-physical society /
title_exact_search	Knowledge grid : toward cyber-physical society /
title_full	Knowledge grid : toward cyber-physical society / Hai Zhuge.
title_fullStr	Knowledge grid : toward cyber-physical society / Hai Zhuge.
title_full_unstemmed	Knowledge grid : toward cyber-physical society / Hai Zhuge.
title_short	Knowledge grid :
title_sort	knowledge grid toward cyber physical society
title_sub	toward cyber-physical society /
topic	Knowledge management. http://id.loc.gov/authorities/subjects/sh97007353 Semantic integration (Computer systems) http://id.loc.gov/authorities/subjects/sh2004000479 Semantic networks (Information theory) http://id.loc.gov/authorities/subjects/sh92004914 Gestion des connaissances. Intégration sémantique (Systèmes informatiques) Réseaux sémantiques. COMPUTERS Networking Intranets & Extranets. bisacsh COMPUTERS Web General. bisacsh Knowledge management fast Semantic integration (Computer systems) fast Semantic networks (Information theory) fast
topic_facet	Knowledge management. Semantic integration (Computer systems) Semantic networks (Information theory) Gestion des connaissances. Intégration sémantique (Systèmes informatiques) Réseaux sémantiques. COMPUTERS Networking Intranets & Extranets. COMPUTERS Web General. Knowledge management
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work_keys_str_mv	AT zhugehai knowledgegridtowardcyberphysicalsociety

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