Opportunistic Spectral Usage: Bounds and a Multi-Band CSMA/CA Protocol

In this paper, we study the gains from opportunistic spectrum usage when neither sender or receiver are aware of the current channel conditions in different frequency bands. Hence to select the best band for sending data, nodes first need to measure the channel in different bands which takes time aw...

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Veröffentlicht in:	IEEE/ACM transactions on networking 2007-06, Vol.15 (3), p.533-545
Hauptverfasser:	Sabharwal, A., Khoshnevis, A., Knightly, E.
Format:	Artikel
Sprache:	eng
Schlagworte:	Access protocols Automobiles Automotive components Automotive engineering Automotive industry Bands Bandwidth Capacity bounds Channels CSMA/CA Data analysis Frequency Gain Gain measurement measurement overhead Media Access Protocol multi-channel Multiaccess communication opportunistic access Spectra Throughput Time measurement Transmitters
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container_title	IEEE/ACM transactions on networking
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creator	Sabharwal, A. Khoshnevis, A. Knightly, E.
description	In this paper, we study the gains from opportunistic spectrum usage when neither sender or receiver are aware of the current channel conditions in different frequency bands. Hence to select the best band for sending data, nodes first need to measure the channel in different bands which takes time away from sending actual data. We analyze the gains from opportunistic band selection by deriving an optimal skipping rule, which balances the throughput gain from finding a good quality band with the overhead of measuring multiple bands. We show that opportunistic band skipping is most beneficial in low signal to noise scenarios, which are typically the cases when the node throughput in single-band (no opportunism) system is the minimum. To study the impact of opportunism on network throughput, we devise a CSMA/CA protocol, multi-band opportunistic auto rate (MOAR), which implements the proposed skipping rule on a per node pair basis. The proposed protocol exploits both time and frequency diversity, and is shown to result in typical throughput gains of 20% or more over a protocol which only exploits time diversity, opportunistic auto rate (OAR).
doi_str_mv	10.1109/TNET.2007.893230
format	Article
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subjects	Access protocols Automobiles Automotive components Automotive engineering Automotive industry Bands Bandwidth Capacity bounds Channels CSMA/CA Data analysis Frequency Gain Gain measurement measurement overhead Media Access Protocol multi-channel Multiaccess communication opportunistic access Spectra Throughput Time measurement Transmitters
title	Opportunistic Spectral Usage: Bounds and a Multi-Band CSMA/CA Protocol
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