Handbook of Research on P2P and Grid Systems for Service-Oriented Computing: Models, Methodologies and Applications, 1st Edition

  • Nick Antonopoulos
  • Published By:
  • ISBN-10: 1615206876
  • ISBN-13: 9781615206872
  • DDC: 004.6
  • Grade Level Range: College Freshman - College Senior
  • 894 Pages | eBook
  • Original Copyright 2009 | Published/Released June 2010
  • This publication's content originally published in print form: 2009

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Table of Contents

Front Cover.
Title Page.
Copyright Page.
Editorial Advisory Board.
List of Reviewers.
List of Contributors.
Table of Contents.
Detailed Table of Contents.
Foreword.
Preface.
1: Fundamentals of Service – Oriented Computing, P2P and Grids.
2: A Survey of Peer-to-Peer Architectures for Service Oriented Computing.
3: Taxonomy of Grid Systems.
4: Peer-to-Peer Search Techniques for Service – Oriented Computing.
5: A Survey of Efficient Resource Discovery Techniques on DHTs.
6: Semantic Technologies for Distributed Search P2P Networks.
7: Grid, P2P and SOA Orchestration: An Integrated Application Architecture for Scientific Collaborations.
8: Service-Oriented Architectures for Pervasive Computing.
9: Overview of Service Oriented Architecture for Resource Management in P2P Systems.
10: Managing the Future Internet: Services, Policies and Peers.
11: P2P Network Management.
12: Business Grids, Infrastructuring the Future of ICT.
13: Peer–to–Peer Service Discovery for Grid Computing.
14: Survey on Grid Computing on Mobile Consumer Devices.
15: Efficiency.
16: P2P in Scalable Cross-Layer Control Planes of Next Generation Networks.
17: Distributed Indexing Networks for Efficient Large-Scale Group Communication.
18: Adaptive Query Processing in Data Grids.
19: Distributed and Adaptive Service Discovery Using Preference.
20: Cooperation Incentives: Issues and Design Strategies.
21: Exploiting P2P and Grid Computing Technologies for Resource Sharing to Support High Performance Distributed System.
22: Resource Co-Allocation in Grid Computing Environments.
23: Self-Adjustment for Service Provisioning in Grids.
24: Improving Energy-Efficiency of Computational Grids via Scheduling.
25: Scalability and Robustness.
26: Dynamic Overlay Networks for Robust and Scalable Routing.
27: A Fault Tolerant Decentralized Scheduling in Large Scale Distributed Systems.