Spatial Reusability-Aware Routing in Multi-Hop Wireless Networks - 2016 PROJECT TITLE : Spatial Reusability-Aware Routing in Multi-Hop Wireless Networks - 2016 ABSTRACT: In the matter of routing in multi-hop wireless networks, to realize high finish-to-finish throughput, it is crucial to search out the “best” path from the source node to the destination node. Although a giant range of routing protocols are proposed to find the trail with minimum total transmission count/time for delivering a single packet, such transmission count/time minimizing protocols can not be guaranteed to attain most end-to-end throughput. During this paper, we argue that by rigorously considering spatial reusability of the wireless Communication media, we have a tendency to can tremendously improve the tip-to-finish throughput in multi-hop wireless networks. To support our argument, we have a tendency to propose spatial reusability-aware single-path routing (SASR) and anypath routing (SAAR) protocols, and compare them with existing single-path routing and anypath routing protocols, respectively. Our evaluation results show that our protocols considerably improve the tip-to-finish throughput compared with existing protocols. Specifically, for single-path routing, the median throughput gain is up to sixty p.c, and for every supply-destination try, the throughput gain is as high as five.3x; for anypath routing, the utmost per-flow throughput gain is 71.vi %, whereas the median gain is up to thirteen.2 %. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest Radio Networks Routing Protocols Routing Wireless Network Protocol Design Saar Protocol Reusability-Aware Anypath Routing Sasr Protocol Spatial Reusability-Aware Single-Path Routing Single Packet Delivery Minimum Total Transmission Time Minimum Total Transmission Count Source To Destination Node High End-To-End Throughput Multihop Wireless Network Spatial Reusability-Aware Routing Protocol Secure Transmission Design for Cognitive Radio Networks With Poisson Distributed Eavesdroppers - 2016 Stable and Fair Power Control in Vehicle Safety Networks - 2016