Davies, John  <br/><br/>
Semantic web technologies :   trends and research in ontology-based systems /  
[Editors] John Davies, Rudi Studer, Paul Warren. 
 - Chichester:  John Wiley and Sons,  2006 
 - 312 p. 
<br/><br/>CONTENIDO<br/>1. Introduction 1<br/>1.1. Semantic Web Technologies 1<br/>1.2. The Goal of the Semantic Web 2<br/>1.3. Ontologies and Ontology Languages 4<br/>1.4. Creating and Managing Ontologies 5<br/>1.5. Using Ontologies 6<br/>1.6. Applications 7<br/>1.7. Developing the Semantic Web 8<br/>References 8<br/>2. Knowledge Discovery for Ontology Construction 9<br/>2.1. Introduction 9<br/>2.2. Knowledge Discovery 10<br/>2.3. Ontology Definition 10<br/>2.4. Methodology for Semi-automatic Ontology Construction 11<br/>2.5. Ontology Learning Scenarios 12<br/>2.6. Using Knowledge Discovery for Ontology Learning 13<br/>2.6.1. Unsupervised Learning 14<br/>2.6.2. Semi-Supervised, Supervised, and Active Learning 16<br/>2.6.3. Stream Mining and Web Mining 18<br/>2.6.4. Focused Crawling 18<br/>2.6.5. Data Visualization 19<br/>2.7. Related Work on Ontology Construction 22<br/>2.8. Discussion and Conclusion 24<br/>Acknowledgements 24<br/>References 25<br/>3. Semantic Annotation and Human Language Technology 29<br/>3.1. Introduction 29<br/>3.2. Information Extraction: A Brief Introduction 31<br/>3.2.1. Five Types of IE 32<br/>3.2.2. Entities 33<br/>3.2.3. Mentions 33<br/>3.2.4. Descriptions 34<br/>3.2.5. Relations 34<br/>3.2.6. Events 34<br/>3.3. Semantic Annotation 35<br/>3.3.1. What is Ontology-Based Information Extraction 36<br/>3.4. Applying 'Traditional' IE in Semantic Web Applications 37<br/>3.4.1. AeroDAML 38<br/>3.4.2. Amilcare 38<br/>3.4.3. MnM 39<br/>3.4.4. S-Cream 39<br/>3.4.5. Discussion 40<br/>3.5. Ontology-based IE 40<br/>3.5.1. Magpie 40<br/>3.5.2. Pankow 41<br/>3.5.3. SemTag 41<br/>3.5.4. Kim 42<br/>3.5.5. KIM Front-ends 43<br/>3.6. Deterministic Ontology Authoring using Controlled Language IE 45<br/>3.7. Conclusion 48<br/>References 49<br/>4. Ontology Evolution 51<br/>4.1. Introduction 51<br/>4.2. Ontology Evolution: State-of-the-art 52<br/>4.2.1. Change Capturing 53<br/>4.2.2. Change Representation 54<br/>4.2.3. Semantics of Change 56<br/>4.2.4. Change Propagation 58<br/>4.2.5. Change Implementation 59<br/>4.2.6. Change Validation 60<br/>4.3. Logical Architecture 60<br/>4.4. Data-driven Ontology Changes 62<br/>4.4.1. Incremental Ontology Learning 64<br/>4.5. Usage-driven Ontology Changes 66<br/>4.5.1. Usage-driven Hierarchy Pruning 67<br/>4.6. Conclusion 6<br/>References 69<br/>5. Reasoning With Inconsistent Ontologies: Framework, Prototype, and Experiment 71<br/>5.1. Introduction 71<br/>5.2. Brief Survey of Approaches to Reasoning with Inconsistency 73<br/>5.2.1. Paraconsistent Logics 73<br/>5.2.2. Ontology Diagnosis 74<br/>5.2.3. Belief Revision 74<br/>5.2.4. Synthesis 75<br/>5.3. Brief Survey of Causes for Inconsistency in the Semantic Web 75<br/>5.3.1. Inconsistency by Mis-representation of Default 75<br/>5.3.2. Inconsistency Caused by Polysemy 77<br/>5.3.3. Inconsistency through Migration from Another Formalism 77<br/>5.3.4. Inconsistency Caused by Multiple Sources 78<br/>5.4. Reasoning with Inconsistent Ontologies 79<br/>5.4.1. Inconsistency Detection 79<br/>5.4.2. Formal Definitions 80<br/>5.5. Selection Functions 82<br/>5.6. Strategies for Selection Functions 83<br/>5.7. Syntactic Relevance-Based Selection Functions 85<br/>5.8. Prototype of Pion 87<br/>5.8.1. Implementation 87<br/>5.8.2. Experiments and Evaluation 88<br/>5.8.3. Future Experiments 91<br/>5.9. Discussion and Conclusions 91<br/>Acknowledgement 92<br/>References 92<br/>6. Ontology Mediation, Merging, and Aligning 95<br/>6.1. Introduction 95<br/>6.2. Approaches in Ontology Mediation 96<br/>6.2.1. Ontology Mismatches 97<br/>6.2.2. Ontology Mapping 97<br/>6.2.3. Ontology Alignment 100<br/>6.2.4. Ontology Merging 102<br/>6.3. Mapping and Querying Disparate Knowledge Bases 104<br/>6.3.1. Mapping Language 106<br/>6.3.2. A (Semi-)Automatic Process for Ontology Alignment 108<br/>6.3.3. OntoMap: an Ontology Mapping Tool 110<br/>6.4. Summary 111<br/>References 112<br/>7. Ontologies for Knowledge Management 115<br/>7.1. Introduction 115<br/>7.2. Ontology Usage Scenario 116<br/>7.3. Terminology 117<br/>7.3.1. Data Qualia 119<br/>7.3.2. Sorts of Data 120<br/>7.4. Ontologies as RDBMS Schema 123<br/>7.5. Topic-ontologies Versus Schema-ontologies 124<br/>7.6. Proton Ontology 126<br/>7.6.1. Design Rationales 126<br/>7.6.2. Basic Structure 127<br/>7.6.3. Scope, Coverage, Compliance 128<br/>7.6.4. The Architecture of Proton 130<br/>7.6.5. Topics in Proton 131<br/>7.6.6. Proton Knowledge Management Module 133<br/>7.7. Conclusion 135<br/>References 136<br/>8. Semantic Information Access 139<br/>8.1. Introduction 139<br/>8.2. Knowledge Access and the Semantic WEB 139<br/>8.2.1. Limitations of Current Search Technology 140<br/>8.2.2. Role of Semantic Technology 142<br/>8.2.3. Searching XML 143<br/>8.2.4. Searching RDF 144<br/>8.2.5. Exploiting Domain-specific Knowledge 146<br/>8.2.6. Searching for Semantic Web Resources 150<br/>8.2.7. Semantic Browsing 151<br/>8.3. Natural Language Generation from Ontologies 152<br/>8.3.1. Generation from Taxonomies 153<br/>8.3.2. Generation of Interactive Information Sheets 154<br/>8.3.3. Ontology Verbalisers 154<br/>8.3.4. Ontogeneration 154<br/>8.3.5. Ontosum and Miakt Summary Generators 155<br/>8.4. Device Independence: Information Anywhere 156<br/>8.4.1. Issues in Device Independence 157<br/>8.4.2. Device Independence Architectures and Technologies 160<br/>8.4.3. DIWAF 162<br/>8.5. SEKTAgent 164<br/>8.6. Concluding Remarks 166<br/>References 167<br/>9. Ontology Engineering Methodologies 171<br/>9.1. Introduction 171<br/>9.2. The Methodology Focus 172<br/>9.2.1. Definition of Methodology for Ontologies 172<br/>9.2.2. Methodology 173<br/>9.2.3. Documentation 174<br/>9.2.4. Evaluation 174<br/>9.3. Past and Current Research 174<br/>9.3.1. Methodologies 174<br/>9.3.2. Ontology Engineering Tools 177<br/>9.3.3. Discussion and Open Issues 178<br/>9.4. Diligent Methodology 180<br/>9.4.1. Process 180<br/>9.4.2. Argumentation Support 183<br/>9.5. First Lessons Learned 185<br/>9.6. Conclusion and Next Steps 186<br/>References 187<br/>10. Semantic Web Services - Approaches and Perspectives 191<br/>10.1. Semantic Web Services - A Short Overview 191<br/>10.2. The WSMO Approach 192<br/>10.2.1. The Conceptual Model - The Web Services Modeling Ontology (WSMO) 193<br/>10.2.2. The Language - The Web Service Modeling Language (WSML) 198<br/>10.2.3. The Execution Environment - The Web Service Modeling Execution Environment (WSMX) 204<br/>10.3. The OWL-S Approach 207<br/>10.3.1. OWL-S Service Profiles 209<br/>10.3.2. OWL-S Service Models 210<br/>10.4. The SWSF Approach 213<br/>10.4.1. The Semantic Web Services Ontology (SWSO) 213<br/>10.4.2. The Semantic Web Services Language (SWSL) 216<br/>10.5. The IRS-III Approach 218<br/>10.5.1. Principles Underlying IRS-III 218<br/>10.5.2. The IRS-III Architecture 220<br/>10.5.3. Extension to WSMO 221<br/>10.6. The WSDL-S Approach 222<br/>10.6.1. Aims and Principles 222<br/>10.6.2. Semantic Annotations 224<br/>10.7. Semantic Web Services Grounding: The Link Between SWS and Existing Web Services Standards 226<br/>10.7.1. General Grounding Uses and Issues 226<br/>10.7.2. Data Grounding 228<br/>10.7.3. Behavioural Grounding 230<br/>10.8. Conclusions and Outlook 232<br/>References 234<br/>11. Applying Semantic Technology to a Digital Library 237<br/>11.1. Introduction 237<br/>11.2. Digital Libraries: The State-of-the-art 238<br/>11.2.1. Working Libraries 238<br/>11.2.2. Challenges 239<br/>11.2.3. The Research Environment 241<br/>11.3.4. Case Study: The BT Digital Library 242<br/>11.3.1. The Starting Point 242<br/>11.3.2. Enhancing the Library with Semantic Technology 244<br/>11.4. The Users' View 248<br/>11.5. Implementing Semantic Technology in a Digital Library 250<br/>11.5.1. Ontology Engineering 250<br/>11.5.2. BT Digital Library End-user Applications 251<br/>11.5.3. The BT Digital Library Architecture 252<br/>11.5.4. Deployment View of the BT Digital Library 255<br/>11.6. Future Directions 255<br/>References 257<br/>12. Semantic Web: A Legal Case Study 259<br/>12.1. Introduction 259<br/>12.2. Profile of the Users 260<br/>12.3. Ontologies for Legal Knowledge 262<br/>12.3.1. Legal Ontologies: State of the Art 263<br/>12.3.2. Ontologies of Professional Knowledge: OPJK 265<br/>12.3.3. Benefits of Semantic Technology and Methodology 267<br/>12.4. Architecture 272<br/>12.4.1. Iuriservice Prototype 272<br/>12.5. Conclusions 278<br/>References 278<br/>13. A Semantic Service-Oriented Architecture for the Telecommunications Industry 281<br/>13.1. Introduction 281<br/>13.2. Introduction to Service-oriented Architectures 282<br/>13.3. A Semantic Service-orientated architecture 284<br/>13.4. Semantic Mediation 286<br/>13.4.1. Data Mediation 287<br/>13.4.2. Process Mediation 287<br/>13.5. Standards and Ontologies in Telecommunications 287<br/>13.5.1. eTOM 289<br/>13.5.2. SID 289<br/>13.5.3. Adding Semantics 290<br/>13.6. Case Study 290<br/>13.6.1. Broadband Diagnostics 292<br/>13.6.2. The B2B Gateway Architecture 292<br/>13.6.3. Semantic B2B Integration Prototype 294<br/>13.6.4. Prototype Implementation 297<br/>13.7. Conclusion 298<br/>References 299<br/>14. Conclusion and Outlook 301<br/>14.1. Management of Networked Ontologies 301<br/>14.2. Engineering of Networked Ontologies 302<br/>14.3. Contextualizing Ontologies 303<br/>14.4. Cross Media Resources 304<br/>14.5. Social Semantic Desktop 306<br/>14.6. Applications 307<br/>Index 309<br/> 
<br/><br/><label>ISBN: </label>9780470025963 
<br/><br/><label>Subjects--Topical Terms: </label><br/>SEMANTIC WEB<br/>WEB SEMANTICA
<br/><br/><label>Universal Decimal Class. No.: </label>004.7 D287