and experimentally evaluate a practical MAC protocol which utilizes multiple channels efficiently for WSNs. A control theory approach is used to dynamically allocate channels for each mote in a distributed manner transparently to the application and routing layers. The protocol assumes that sensor nodes are equipped with one half-duplex radio interface which is most common in current hardware platforms. The protocol does not require time synchronization among nodes and takes the channel switching cost
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multidimensional warehouse for comparing many aspects in WSN such as (routing protocol[4]‚ sensor‚ sensor mobility‚ cluster ….). Hence‚ data warehouse defined and applied to the context above is presented as a useful approach that gives specialists row data and information for decision processes and navigate from one aspect to another. KEYWORDS Network Protocols‚ WSN‚ Data Warehouse‚ multidimensional design‚ OLAP‚ Routing Protocol 1. INTRODUCTION As known‚ the demand for smart phones and
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high level layer 2 protocols cannot interact directly without having an intermediate low level layer 2 protocol‚ in the case of DPT the layer 2 protocol is SRP. Existing work presented Cooperative Opportunistic Routing in MANET (CORMAN) where the nodes use lightweight proactive source routing to determine intermediate node lists for data route (to destination). Data broadcast from upstream node reach downstream nodes are en-routed to its destination by cooperative communication at link and network
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MPLS introduction‚ VPN‚ MPLS VPN‚ Working‚ VRN Routing Information and BGP distribution. Disadvantages and future security recommendations are also mentioned in the report. Introduction Why MPLS? Now a day’s technology is increasing rapidly. Every present technology has been further extended into new future technology. MPLS is mainly introduced to overcome the drawbacks of traditional IP Routing. For distributing Layer 3 routing data different routing protocols are used. Forwarding the packets
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get on well with people including cross-cultural backgrounds. EXPERIENCE SUMMARY 1+ year experience in IT that includes Network Design‚ Implementation support‚ Network Management System. Hands on experience in deploying routing protocols like RIP‚ OSPF & EIGRP. Familiar with Layer 3 CISCO catalyst 4507R‚ 3750G series And Layer 2 CISCO catalyst SG-300‚ 2950‚ 2960-S series. Configuration and Maintenance of Navlin-Lookout Firewall & CISCO PIX 525 with ACLs‚ NAT & PAT. Terrfic
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Top-Down Network Design Third Edition Priscilla Oppenheimer Priscilla Oppenheimer Cisco Press 800 East 96th Street Indianapolis‚ IN 46240 ii Top-Down Network Design Top-Down Network Design‚ Third Edition Priscilla Oppenheimer Copyright© 2011 Cisco Systems‚ Inc. Published by: Cisco Press 800 East 96th Street Indianapolis‚ IN 46240 USA All rights reserved. No part of this book may be reproduced or transmitted in any form or by any means‚ electronic or mechanical‚ including photocopying
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AODV has pooled properties of both DSR and DSDV. It uses route discovery process for sustaining route information through the basis of routing table. It is a reactive protocol as it doesn’t need to establish or maintain routes to nodes that are not involved in the communication. AODV handles route discovery process with Route Request (RREQ) messages to broadcast to neighbour nodes. The message floods through the network till the desired destination is reached. Sequence number guarantees the loop
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Project Report (Project Semester January - June 2014) On OSPF vs EIGRP ROUTING SUBMITTED BY PARSHANT VATS STUDENT ROLL NO. 1185746
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CareerCert.info Chapter 1: Planning for Complex Networks............4 Chapter 2: EIGRP ......................................................18 Chapter 3: OSPF .......................................................40 Chapter 4: Optimizing Routing................................61 CCNP ROUTE 642-902 Quick Reference Chapter 5: Path Control ...........................................76 Chapter 6: BGP and Internet Connectivity............83 Chapter 7: Branch Office Connectivity ..
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The DYMO Routing Protocol in VANET Scenarios Christoph Sommer and Falko Dressler Computer Networks and Communication Systems Dept. of Computer Sciences‚ University of Erlangen-Nuremberg‚ Germany {christoph.sommer‚dressler}@informatik.uni-erlangen.de Abstract—Coupling Vehicular Ad Hoc Networks (VANETs) with wired networks such as the Internet via access points creates a difficult mix of highly mobile nodes and a static infrastructure. In order to evaluate the performance of typical ad hoc
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