Peer-to-peer Computing: The Evolution of a Disruptive TechnologyRamesh Subramanian, Brian D. Goodman Idea Group Inc (IGI), 2005. gada 1. janv. - 308 lappuses Peer to Peer Computing: The Evolution of a Disruptive Technology takes a holistic approach to the affects P2P Computing has on a number a disciplines. Some of those areas covered within this book include grid computing, web services, bioinformatics, security, finance and economics, collaboration, and legal issues. Unique in its approach, Peer to Peer Computing includes current articles from academics as well as IT practitioners and consultants from around the world. As a result, the book strikes a balance for many readers. Neither too technical or too managerial, Peer to Peer Computing appeals to the needs of both researchers and practitioners who are trying to gain a more thorough understanding of current P2P technologies and their emerging ramifications. |
No grāmatas satura
1.–5. rezultāts no 45.
xiii. lappuse
... dynamic membership, hierarchical object relationships, and synchronous and asynchronous collaboration. The authors present the design of a prototype system and then develop an enhanced consistency control algorithm that is tailored to ...
... dynamic membership, hierarchical object relationships, and synchronous and asynchronous collaboration. The authors present the design of a prototype system and then develop an enhanced consistency control algorithm that is tailored to ...
xiv. lappuse
... dynamic allocation of different resource types to many different organizations.” Therefore they propose that the lessons learned from finance could be applied to P2P implementations. They present 10 basic lessons for resource sharing ...
... dynamic allocation of different resource types to many different organizations.” Therefore they propose that the lessons learned from finance could be applied to P2P implementations. They present 10 basic lessons for resource sharing ...
4. lappuse
... dynamics within them. In contrast to Levels 1 and 2, where the term peer essentially refers to technical entities, in Level 3 the significance of the term peer is interpreted in a nontechnical sense (peer as person). P2P. Infrastructures.
... dynamics within them. In contrast to Levels 1 and 2, where the term peer essentially refers to technical entities, in Level 3 the significance of the term peer is interpreted in a nontechnical sense (peer as person). P2P. Infrastructures.
14. lappuse
... dynamic, virtual organizations that extend beyond any single institution, currently fall under the term grid computing (Baker et al., 2002; Foster, 2002; Foster & Kesselman, 2004; Foster, Kesselman, & Tuecke, 2002; GGF, n.d.). The term ...
... dynamic, virtual organizations that extend beyond any single institution, currently fall under the term grid computing (Baker et al., 2002; Foster, 2002; Foster & Kesselman, 2004; Foster, Kesselman, & Tuecke, 2002; GGF, n.d.). The term ...
17. lappuse
... dynamics are threatened by free riders by denying access to the downloaded file or moving the file immediately after downloading so that the collective database doesn't increase. Free-riding peers use the resources available in the P2P ...
... dynamics are threatened by free riders by denying access to the downloaded file or moving the file immediately after downloading so that the collective database doesn't increase. Free-riding peers use the resources available in the P2P ...
Saturs
Systems and Assets Issues Arising from Decentralized Networks in Security and Law | 113 |
P2P Domain Proliferation Perspectives and Influences of Peer Concepts on Collaboration Web Services and Grid Computing | 194 |
About the Editors | 296 |
About the Authors | 298 |
Index | 305 |
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Peer-to-peer Computing: The Evolution of a Disruptive Technology Ramesh Subramanian,Brian D. Goodman Ierobežota priekšskatīšana - 2005 |
Peer-to-peer Computing: The Evolution of a Disruptive Technology Ramesh Subramanian,Brian D. Goodman Ierobežota priekšskatīšana - 2005 |
Bieži izmantoti vārdi un frāzes
activity allow applications approach architecture authors bioinformatics central chapter client collaboration communication computing connected consistency Copying or distributing Copyright cost court create database described discovery discussion distributing in print dynamic e-mail electronic forms entities environment example exchange existing FastTrack Figure file sharing forms without written function Gnutella grid Idea Group Inc identifier implementation infrastructure infringement interaction interest Internet issues keywords knowledge maintain markets mechanism Napster node offer operations organization overlay P2P networks P2P systems peer peer-to-peer networks performance possible present print or electronic problem Proceedings protocol query received request result Retrieved routing servent server shared objects sharing space storage stored structure topology trust types University users