Semantic Web for the Working Ontologist, Third Edition : Effective Modeling for Linked Data, RDFS and OWL
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| Autore: |
Hendler James
|
| Titolo: |
Semantic Web for the Working Ontologist, Third Edition : Effective Modeling for Linked Data, RDFS and OWL
|
| Pubblicazione: | San Rafael : , : Morgan & Claypool Publishers, , 2020 |
| ©2020 | |
| Edizione: | 3rd ed. |
| Descrizione fisica: | 1 online resource (512 pages) |
| Disciplina: | 025.0427 |
| Soggetto topico: | Linked data |
| Metadata | |
| OWL (Web ontology language) | |
| Altri autori: |
GandonFabien
AllemangDean
|
| Nota di contenuto: | Intro -- Semantic Web for the Working Ontologist -- Contents -- Preface -- 1 What Is the Semantic Web? -- 1.1 What Is a Web? -- 1.2 Communicating with Data -- 1.3 Distributed Data -- 1.4 Summary -- 2 Semantic Modeling -- 2.1 Modeling for Human Communication -- 2.2 Explanation and Prediction -- 2.3 Mediating Variability -- 2.4 Expressivity in Modeling -- 2.5 Summary -- 3 RDF-The Basis of the Semantic Web -- 3.1 Distributing Data Across the Web -- 3.2 Merging Data from Multiple Sources -- 3.3 Namespaces, URIs, and Identity -- 3.4 Identifiers in the RDF Namespace -- 3.5 CHALLENGES: RDF and Tabular Data -- 3.6 Higher-Order Relationships -- 3.7 Naming RDF Graphs -- 3.8 Alternatives for Serialization -- 3.9 Blank Nodes -- 3.10 Summary -- 4 Semantic Web Application Architecture -- 4.1 RDF Parser/Serializer -- 4.2 RDF Store -- 4.3 Application Code -- 4.4 Data Federation -- 4.5 Summary -- 5 Linked Data -- 5.1 Weaving a Web of Data -- 5.2 HTTP and the Architecture of the Web -- 5.3 Hash or Slash -- 5.4 See It for Yourself… -- 5.5 Summary -- 6 Querying the Semantic Web-SPARQL -- 6.1 Tell-and-Ask Systems -- 6.2 RDF as a Tell-and-Ask System -- 6.3 SPARQL-Query Language for RDF -- 6.4 CONSTRUCT Queries in SPARQL -- 6.5 Using Results of CONSTRUCT Queries -- 6.6 SPARQL Rules-Using SPARQL as a Rule Language -- 6.7 Transitive queries (SPARQL 1.1) -- 6.8 Advanced Features of SPARQL -- 6.9 Summary -- 7 Extending RDF: RDFS and SCHACL -- 7.1 Inference in RDF with RDFS -- 7.2 Where are the Smarts? -- 7.3 When Does Inferencing Happen? -- 7.4 Expectation in RDF -- 7.5 Summary -- 8 RDF Schema -- 8.1 Schema Languages and Their Functions -- 8.2 The RDF Schema Language -- 8.3 RDFS Modeling Combinations and Patterns -- 8.4 Challenges -- 8.5 Modeling with Domains and Ranges -- 8.6 Nonmodeling Properties in RDFS -- 8.7 Summary -- 9 RDFS-Plus -- 9.1 Inverse. |
| 9.2 Managing Networks of Dependencies -- 9.3 Equivalence -- 9.4 Merging Data from Different Databases -- 9.5 Computing Sameness: Functional Properties -- 9.6 A Few More Constructs -- 9.7 Summary -- 10 Using RDFS-Plus in the Wild -- 10.1 Schema.org -- 10.2 Open Government Data -- 10.3 FOAF -- 10.4 Facebook's Open Graph Protocol -- 10.5 Summary -- 11 SKOS-Managing Vocabularies with RDFS-Plus -- 11.1 Simple Knowledge Organization System (SKOS) -- 11.2 Semantic Relations in SKOS -- 11.3 Concept Schemes -- 11.4 SKOS Integrity -- 11.5 SKOS in Action -- 11.6 Summary -- 12 Basic OWL -- 12.1 Restrictions -- 12.2 Challenge Problems -- 12.3 Alternative Descriptions of Restrictions -- 12.4 Summary -- 13 Counting and Sets in OWL -- 13.1 Unions and Intersections -- 13.2 Differentiating Multiple Individuals -- 13.3 Cardinality -- 13.4 Set Complement -- 13.5 Disjoint Sets -- 13.6 Prerequisites Revisited -- 13.7 Contradictions -- 13.8 Unsatisfiable Classes -- 13.9 Inferring Class Relationships -- 13.10 Reasoning with Individuals and with Classes -- 13.11 Summary -- 14 Ontologies on the Web-Putting It All Together -- 14.1 Ontology Architecture -- 14.2 Quantities, Units, Dimensions, and Types -- 14.3 Biological Ontologies -- 14.4 FIBO-The Financial Industry Business Ontology -- 14.5 Summary -- 15 Good and Bad Modeling Practices -- 15.1 Getting Started -- 15.2 Good Naming Practices -- 15.3 Common Modeling Errors -- 15.4 Summary -- 16 Expert Modeling in OWL -- 16.1 OWL Subsets and Modeling Philosophy -- 16.2 OWL 2 Modeling Capabilities -- 16.3 Summary -- 17 Conclusions and Future Work -- Bibliography -- Authors' Biographies -- Index. | |
| Sommario/riassunto: | The Semantic Web treats data as a distributed resource on the scale of the World Wide Web, and incorporates features to address the challenges of massive data distribution as part of its basic design. The aim of the first two editions was to motivate the Semantic Web technology stack from end-to-end; to describe not only what the Semantic Web standards are and how they work, but also what their goals are and why they were designed as they are. It tells a coherent story from beginning to end of how the standards work to manage a world-wide distributed web of knowledge in a meaningful way. The third edition builds on this foundation to bring Semantic Web practice to enterprise. Fabien Gandon joins Dean Allemang and Jim Hendler, bringing with him years of experience in global linked data, to open up the story to a modern view of global linked data. While the overall story is the same, the examples have been brought up to date and applied in a modern setting, where enterprise and global data come together as a living, linked network of data. Also included with the third edition, all of the data sets and queries are available online for study and experimentation at data.world/swwo. |
| Altri titoli varianti: | Semantic Web for the Working Ontologist |
| Titolo autorizzato: | Semantic Web for the Working Ontologist, Third Edition |
| ISBN: | 1-4503-7615-0 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910838221103321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |