Available connectivity analysis under free flow state in VANETs

Chen, Chen; Liu, Lei; Du, Xiaobo; Wei, Xiaolu; Pei, Changxing

doi:10.1186/1687-1499-2012-270

Cited by 24 publications

(9 citation statements)

References 23 publications

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“…We only consider unidirectional traffic flow. Using bidirectional traffic in VANET communication can increase connectivity [29][30][31], but requires more complicated store-carry-forward routing strategy, and causing long message delivery delays [31][32][33][34]. The VANET is connected if X i is less than the communication range z, for all values of i.…”

Section: Probability Of Connectivitymentioning

confidence: 99%

Effect of minimum headway distance on connectivity of VANETs

Abuelenin

Abul-Magd

2015

AEU - International Journal of Electronics and Communications

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Section: Probability Of Connectivitymentioning

confidence: 99%

Effect of minimum headway distance on connectivity of VANETs

Abuelenin

Abul-Magd

2015

AEU - International Journal of Electronics and Communications

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“…The reason behind the speed limits is that the area in range ( 3 , ȝ ı − 3 ) ȝ ı + covers about 99.7% of the total area for a normal distribution curve [16].…”

Section: A Assumptions and Problem Definationmentioning

confidence: 99%

A Delay Sensitive Time Slots Scheduling in Vehicular Sensor Networks

Chen

Wei

Jin

et al. 2013

2013 5th International Conference on Intelligent Networking and Collaborative Systems

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In Vehicular communication networks, a robust access mechanism is essential for the successful information exchange between vehicles and roadside unit, which keeps the vehicles being aware of surroundings thus improving driving safety and reduce traffic jam. In this paper, we first analyze the drawbacks of explicit GTS (Guaranteed Time Slots) allocation suggested by IEEE 802.15.4 draft and show the importance of a wise assignment scheme and efficient scheduler especially for high dynamic vehicular environment. Then, for a given number of vehicles requesting to access the roadside unit, we propose a Time-Sensitive Weighted Round Robin scheduler (TS-WRR) considering different service delay requirements, packets arrival rates and vehicles' mobility levels. We also show the elaborate implementation procedure of TS-WRR by pseudocode. Numerical results show that our TS-WRR scheduler outperforms FCFS and WRR on the performance of transactions delay requirements guarantee and GTS utilization ratio in Vehicular Sensor Networks.

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“…Due to high mobility in VANETs, the distance between nodes dramatically varies with time. This causes short link lifetime and intermittent network connectivity [9]. In this situation, frequent link partitions often occur, which will disturb the multi-hop data transmission and increase the packet loss ratios.…”

Section: Introductionmentioning

confidence: 99%

An Efficient and Reliable QoF Routing for Urban VANETs With Backbone Nodes

et al. 2019

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Because of the dynamic topology, high mobility of nodes, and complicated channel environments in urban areas, existing routings methods are susceptible to frequent link interruptions and channel congestions. To address these issues, a Quality of Forwarding (QoF)-based reliable geographic routing (QFRG) in urban vehicular ad hoc networks (VANETs) is proposed, where the best route is determined by guaranteeing the QoF and satisfying the link reliability requirement. Two theoretical models for QoF and link reliability analysis are first presented. Taking into consideration the transmission cost and the packet delivery ratio, the QoF is, then, employed to provide the quantitative evaluation to the road segments through the presented road weight evaluation (RWE) scheme, which takes into account the impact of the relative position of links on the network performance. Next, to accommodate the network scale of an urban city, the city map is divided into smaller grid zones. Based on the position of the destination, different transmission strategies are presented for packet forwarding. The extensive simulations demonstrate our protocol's superiority in both transmission delay and packet delivery ratio compared with the existing schemes. INDEX TERMS Vehicular ad hoc networks, quality of forwarding, reliability, routing protocol.

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Available connectivity analysis under free flow state in VANETs

Cited by 24 publications

References 23 publications

Effect of minimum headway distance on connectivity of VANETs

Effect of minimum headway distance on connectivity of VANETs

A Delay Sensitive Time Slots Scheduling in Vehicular Sensor Networks

An Efficient and Reliable QoF Routing for Urban VANETs With Backbone Nodes

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