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This comprehensive text explains the principles and practice of Web services and relates all concepts to practical examples and emerging standards. Its discussions include:
Ontologies
Semantic web technologies
Peer-to-peer service discovery
Service selection
Web structure and link analysis
Distributed transactions
Process modelling
Consistency management.
The application of these technologies is clearly explained within the context of planning, negotiation, contracts, compliance, privacy, and network policies. The presentation of the intellectual underpinnings of Web services draws from several key disciplines such as databases, distributed computing, artificial intelligence, and multi-agent systems for techniques and formalisms. Ideas from these disciplines are united in the context of Web services and service-based applications. Featuring an accompanying website and teacher's manual that includes a complete set of transparencies for lectures, copies of open-source software for exercises and working implementations, and resources to conduct course projects, this book makes an excellent graduate textbook. It will also prove an invaluable reference and training tool for practitioners.
Bibliografia Glosariusz/słownik Wydanie ilustrowane
About the Authors.
Preface.
Note to the Reader.
Acknowledgments.
Figures.
Tables.
Listings.
I Basics.
1. Computing with Services.
2. Basic Standards for Web Services.
3. Programming Web Services.
4. Enterprise Architectures.
5. Principles of Service–Oriented Computing.
II Description.
6. Modeling and Representation.
7. Resource Description Framework.
8. Web Ontology Language.
9. Ontology Management.
III Engagement.
10. Execution Models.
11. Transaction Concepts.
12. Coordination Frameworks for Web Services.
13. Process Specifications.
14. Formal Specification and Enactment.
IV Collaboration.
15. Agents.
16. Multiagent Systems.
17. Organizations.
18. Communication.
V Solutions.
19. Semantic Service Solutions.
20. Social Service Selection.
21. Economic Service Selection.
VI Engineering.
22. Building SOC Applications.
23. Service Management.
24. Security.
VII Directions.
25. Challenge and Extensions.
VIII Appendices.
Appendix A: XML and XML Schema.
Appendix B: URI, URN, URL and UUID.
Appendix C: XML Namespace Abbreviations.
Glossary.
About the Authors.
Bibliography.
Index.
Munindar P. Singh is a Professor of computer Science at North Carolina State University From 1989 through 1995, he was with the Microelectronics and Computer Technology Corporation (better known as MCC). Melinda′s research interests include multiagent systems and Web services. He focuses on applications in e–commerce and personal technologies. Munindar′s 1994 book multiagent Systems, was published by Springer–Verlag. He coedited Readings in Agents, which was published by Morgan Kaufman in 1988. He has coedited several other books and authored several technical articles. Munindar′s research has been recognized with awards and sponsorship from the National Science Foundation, DARPA, IBM, Cisco Systems, and Ericsson.
Munindar was the editor–in–chief of IEEE Internet Computing from 1990 to 2002 and continues to serve on its editorial board. He is a member of the editorial boards of the Journal of Autonomous Agents and Multiagent Systems and the Journal of Web Semantics. He serves on the steering committee for the IEEE Transactions on Mobile Computing.
Munindar received a B.Tech. in computer science and engineering from the Indian Institute of Technology, New Delhi, in 1986. He obtained a PhD in computer science from the University of Texas at Austin in 1993.
Michael N. Huhns is the NCR Professor of Computer Science and Engineering at the University of South Carolina, where he also directs the Center for information Technology. Previously he was a Senior Member of the Research Division at the Microelectronics and Computer Technology Corporation. Prior to joining MCC in 1985, he was an Associate Professor of Electrical and Computer Engineering at the University of South Carolina, where he also directed the Center for Machine Intelligence.
Mike is a member of Sigma Xi, Tau, Beta Pi, Eta Kappa Nu, ACM, IEEE, and AAAI. He is the author of over 180 technical papers in machine intelligence and an editor of the books Distributed Artificial Intelligence, Volumes I and II, and, with Munindar, Readings in Agents. His research interest are in the areas of multiagent systems, enterprise modeling and integration, and software engineering. From 1997 to 2003, he wrote a column Agents on the Web for IEEE Internet Computing.
Mike was an associate editor for IEEE Expert and the ACM Transactions on Information Systems. he is an associate editor for the Journal of Autonomous Agents and Multiagent Systems. He is on the Editorial Boards of the International Journal on Intelligent and Cooperative Information Systems, the Journal of Intelligent Manufacturing, and IEEE Internet Computing. He was an advisor for the First International Conference on Multiagent Systems, 1995, and has been on the advisory boards for the International Workshops on Distributed Artificial Intelligence. He is a member of the board for the International Foundation for Multiagent Systems and the International Foundation on Cooperative Information Systems.
Mike received the BSEE degree in 1969 from the University of Michigan Ann Arbor, and the MS and PhD degrees in electrical engineering in 1971 and 1975, respectively, from the University of Southern California, Los Angeles.
Learn how to build more effective distributed applications with Web services!
Service–Oriented Computing explains the principles and practice of successful services, with many of its concepts developed in the context of Web services. Since every aspect of a service is geared towards compatibility so they can be described, selected, engaged, evaluated, and collaborated with Web services allow a more effective development of distributed applications than previous software approaches.
Service–Oriented Computing presents the concepts, architectures, techniques, and infrastructure necessary for employing services. It provides a comprehensive overview of the state–of–the–art in Web services and associated disciplines, relating concepts to practical examples and emerging standards. Applications of technologies are explained within the context of planning, negotiation, contacts, compliance, privacy, and network policies.
Service–Oriented Computing:
Draws from several key disciplines such as databases, distributed computing, artificial intelligence, and multiagent systems.
Describes advanced concepts such as ontologies, Semantic Web technologies, distributed transactions, process modeling, consistency management, organization, business protocols, peer–to–peer service discovery, and service selection.
Contains a detailed section on the web ontology language (OWL) as well as business process languages (WSCI, BPEL4WS, BPML, and ebXML).
Features an accompanying website with a complete set of transparencies, solutions to exercises, and open–source and public–domain tools for you to build and experiment with your own service–oriented computing systems.
This invaluable reference will serve as a comprehensive senior undergraduate and postgraduate student textbook on service–oriented computing, enabling practitioners, technologists, strategists, and researchers to be adequately prepared for the fast–approaching explosion in Web service provision.