Proceedings ArticleDOI
Vehicular Adhoc Networks Handovers with Metaheuristic Algorithms
Pravin Wararkar,Sanjay S. Dorle +1 more
- pp 160-165
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TLDR
This work has addressed the utility of metaheuristic algorithms (PSO, GA) for inter VANET sensor data handovers in order to study the performance analysis to maximize the throughput & reliability improvement in real VANet.Abstract:
VEHICULAR ad hoc networks (VANETs) are the self-configuring networks where the nodes are vehicles (equipped with on-board computers), elements of roadside infrastructure, sensors, and pedestrian personal devices. In the current state of the art in this field there is a need of studies on real outdoor experiments to validate the new VANETs optimizing protocols and applications. Thus exchanging up-to-date information among vehicles is the most salient feature of a VANET. In order to do so, the packets have to travel through the network from one node to the others & thus give rise to concept of inter VANET data handovers & VDTP (Vehicular data transfer Protocol). In this work, we have addressed the utility of metaheuristic algorithms (PSO, GA) for inter VANET sensor data handovers in order to study the performance analysis to maximize the throughput & reliability improvement in real VANET.read more
Citations
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Target RSU Selection with Low Scanning Latency in WiMAX-enabled Vehicular Networks
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Reducing scanning latency in WiMAX enabled VANETs
TL;DR: An efficient network assisted handover scheme which reduces the scanning latency faced by vehicles during handover process and efficiently reduces the overall scanning delay and iterations commonly faced by Vehicles.
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Transportation security through inter Vehicular Ad-Hoc networks (VANETs) handovers using RF trans receiver
Pravin Wararkar,Sanjay S. Dorle +1 more
TL;DR: This technique will improve security in VANET by preventing malicious users from falsifying their position information by comparing what is seen to what has been reported over the network, and can confirm the real position of the neighbours and defect malicious vehicle.
References
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Proceedings ArticleDOI
Maximizing throughput of linear vehicular Ad-hoc NETworks (VANETs) — a stochastic approach
TL;DR: Stochastic geometry is used to propose two models for Aloha-based linear VANETs using signal over interference plus noise ratio (SINR) capture condition to qualify a successful transmission and expresses the transmission throughput as a function of SINR using Shannon's law.
Proceedings ArticleDOI
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