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Mobile Networks and Applications
Erschienen in: Mobile Networks and Applications 6/2013

01.12.2013

Spectrum-aware Beaconless Geographical Routing Protocol for Cognitive Radio Enabled Vehicular Networks

verfasst von: Junseok Kim, Marwan Krunz

Erschienen in: Mobile Networks and Applications | Ausgabe 6/2013

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Abstract

The FCC and ETSI have allocated spectrum in the 5.9 GHz band for intelligent transportation systems. However, this spectrum supports short-range transmissions (up to 1000 m) and limited bandwidth (up to 75 MHz), which are not enough to meet the increasing demand for in-car infotainment services. In this paper, we propose a distributed routing protocol for vehicular ad hoc networks, where cognitive radio enabled vehicles (CRVs) dynamically share the TV-band channels. In the proposed protocol, CRVs jointly select relay nodes, channels, transmission powers, and transmission rates so that their total transmission rates are maximized while meeting their rate demands and power constraints. This selection process is carefully executed so that ongoing communications between primary radios (PRs) and between other CRVs are not disrupted. Once the relay nodes are selected, they continue to relay more messages as long as they stay in a predefined forwarding area. By doing so, the overhead for selecting relay nodes can be substantially reduced. Channels, powers, and rates are changed on a per-packet and per-hop basis so that the proposed protocol can efficiently adapt to spectrum dynamics. Simulation results show that our protocol increases the end-to-end network throughput by up to 250 % and decreases the end-to-end delay by up to 400 % compared with other geographical routing protocols.
Vorheriger Artikel Application of Cognitive Techniques to Adaptive Routing for VANETs in City Environments
Nächster Artikel The Impact of Cooperative Nodes on the Performance of Vehicular Delay-Tolerant Networks

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Fußnoten
1
Non-contiguous channel access is adopted to new IEEE standards 802.11ac/af[2].
 
2
We refer to an OFDM subcarrier as a subcarrier, for brevity.
 
3
Several techniques have been proposed for control-channel selection. See [18] and the references therein.
 
4
We assume that the noise is a stationary and ergodic random process and its statistics can be measured a priori.
 
5
The value of 𝜖 should be carefully chosen to avoid fast fading effect
 
6
In real systems, more delay factors should be considered such as the inter-frame spacing, propagation delays, etc. These are ignored in the example for simplicity.
 
7
The codes can be obtained from the authors upon request.
 
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Metadaten
Titel
Spectrum-aware Beaconless Geographical Routing Protocol for Cognitive Radio Enabled Vehicular Networks
verfasst von
Junseok Kim
Marwan Krunz
Publikationsdatum
01.12.2013
Verlag
Springer US
Erschienen in
Mobile Networks and Applications / Ausgabe 6/2013
Print ISSN: 1383-469X
Elektronische ISSN: 1572-8153
DOI
https://doi.org/10.1007/s11036-013-0476-5

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