mesh
DESCRIPTION
MMMMMTRANSCRIPT
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DYNAMIC GROUP PEER FORMATION AND FINDER BY PARALLEL CONNECTIVITY
UNDER THE GUIDENCE OF BY
Ms. V.VIANCY M.Tech.,(AP/IT) MEENAKSHI.M
PRIYA.G
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BASE PAPER DETAIL
TITLE:
Locating Equivalent Servants over P2P Networks.
IEEE transactions on network and service management, vol. 8, no. 1, March 2011
AUTHOR:
Guido Marchetto, Luigi Ciminiera, Marco Papa Manzillo, Fulvio Risso, Livio Torrero
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CONTENT
ABSTRACT MOTIVATION INTRODUCTION EXISTING SYSTEM PROPOSED SYSTEM HARDWARE AND SOFTWARE REQUIREMENTS PHASE I PHASE II PHASE III IMPLEMENTATION IDEA REFERENCES
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ABSTRACT Peer-to-peer (P2P) streaming widely deployed over the
Internet. A streaming system has multiple channels, and peers may
form multiple groups for content distribution. we propose a distributed overlay framework (called SMesh)
for dynamic groupings to make content distribution. SMesh (Stable Mesh) first builds a stable mesh. mesh supports dynamic host joining, leaving, and guide the
construction of delivery trees.
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MOTIVATION
Peer to peer network:
peer to peer networks are mainly used to locate unique resources across the Internet.
For certain request any peer can function as a client or as a server (decentralized).
information is distributed among all peers
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INTRODUCTION
“servants” in charge will provide the services. Goal : to achieve performance, scalability, and
robustness. Challenge of p2p networks is to achieve efficient
resource discovery. Network and data are completely decentralized. Networks are highly dynamic with frequent entry
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EXISTING SYSTEM
System composed of peers joining the network with some loose rules, without any prior knowledge of the topology.
Network uses random walks as the mechanism to send queries across the overlay with a limited scope.
Here they adopt the topology of a generic DHT, with a fixed number of neighbors for each node.
Each peer maintains a small routing table consisting of its “neighboring” peers’ Node IDs and IP addresses. It increases the complexity of the network.
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PROPOSED SYSTEM
SMesh (Stable Mesh) first builds a relatively stable mesh consisting of all hosts for control messaging.
The mesh supports dynamic host joining and leaving and will guide the construction of delivery trees.
we consider building a data delivery tree for each group. To reduce tree construction and maintenance costs, we build a single shared overlay mesh.
With the help of the mesh, trees can be efficiently constructed with no need of loop detection and elimination. Since an overlay tree serves only a subset of peers in the network, we term this framework SMesh.
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SYSTEM ARCHITECTURE
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HARDWARE AND SOFTWARE REQUIREMENTS
HARDWARE System : Pentium IV 2.4 GHz. Hard Disk : 40 GB. Ram : 256 Mb.
SOFTWARE Os : Windows XP. JDK : 1.5/ 1.6 and above. Front End : JAVA, Swing(JFC). Database : JDBC.
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PHASE -I
Group peer creation enter their details Add into control of control peer
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SCREEN SHOT
Group peer getting authentication
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SCREEN SHOT
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SCREEN SHOT
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PHASE-II
Source peer creation Source peer authentication checking Source peer sending details to all group peer Control peer creation Check the details of group peer
details(password,user name)
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SCREEN SHOT
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SCREEN SHOT
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PHASE III(IDEA)
Sending details to specified group peer Creating report for knowing the uploading file
details in control peer
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REFERENCE
http://support.microsoft.com/kb/150575 http://www.site.uottawa.ca/~jingwu/publications/journal/
COVER-PAGE-peer-to-peer-network-architecture.pdf http://www.sysdesign.ca/archive/berkes_gnutella_freenet
.pdf http://www.wikinvest.com/concept/Cloud_Computing