Effective sensor positioning to localize target transmitters in a Cognitive Radio Network

Audri Biswas; Sam Reisenfeld; Mark Hedley; Zhuo Chen

doi:10.4108/eai.5-4-2016.151145

Effective sensor positioning to localize target transmitters in a Cognitive Radio Network

Audri Biswas, Sam Reisenfeld, Mark Hedley, Zhuo Chen

School of Engineering

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Abstract

A precise positioning of transmitting nodes enhances the performance of Cognitive Radio (CR), by enabling more efficient dynamic allocation of channels and transmit powers for unlicensed users. Most localization techniques rely on random positioning of sensor nodes where, few sensor nodes may have a small separation between adjacent nodes. Closely spaced nodes introduces correlated observations, effecting the performance of Compressive Sensing (CS) algorithm. This paper introduces a novel minimum distance separation aided compressive sensing algorithm (MDACS). The algorithm selectively eliminates Secondary User (SU) power observations from the set of SU receiving terminals such that pairs of the remaining SUs are separated by a minimum geographic distance.We have evaluated the detection of multiple sparse targets locations and error in l₂-norm of the recovery vector. The proposed method offers an improvement in detection ratio by 20% while reducing the error in l₂-norm by 57%.

Original language	English
Pages (from-to)	e3-1-e3-10
Number of pages	10
Journal	EAI endorsed transactions on cognitive communications
Volume	2
Issue number	6
DOIs	https://doi.org/10.4108/eai.5-4-2016.151145
Publication status	Published - 2016

Bibliographical note

Copyright the Author(s) 2016. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

Keywords

Cognitive Radio
Compressive Sensing
Radio Environment Map
localization
power measurements

Access to Document

10.4108/eai.5-4-2016.151145

Publisher version (open access)Final published version, 763 KBLicence: Unspecified

Cite this

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title = "Effective sensor positioning to localize target transmitters in a Cognitive Radio Network",

abstract = "A precise positioning of transmitting nodes enhances the performance of Cognitive Radio (CR), by enabling more efficient dynamic allocation of channels and transmit powers for unlicensed users. Most localization techniques rely on random positioning of sensor nodes where, few sensor nodes may have a small separation between adjacent nodes. Closely spaced nodes introduces correlated observations, effecting the performance of Compressive Sensing (CS) algorithm. This paper introduces a novel minimum distance separation aided compressive sensing algorithm (MDACS). The algorithm selectively eliminates Secondary User (SU) power observations from the set of SU receiving terminals such that pairs of the remaining SUs are separated by a minimum geographic distance.We have evaluated the detection of multiple sparse targets locations and error in l₂-norm of the recovery vector. The proposed method offers an improvement in detection ratio by 20\% while reducing the error in l₂-norm by 57\%.",

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AU - Biswas, Audri

AU - Reisenfeld, Sam

AU - Hedley, Mark

AU - Chen, Zhuo

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AB - A precise positioning of transmitting nodes enhances the performance of Cognitive Radio (CR), by enabling more efficient dynamic allocation of channels and transmit powers for unlicensed users. Most localization techniques rely on random positioning of sensor nodes where, few sensor nodes may have a small separation between adjacent nodes. Closely spaced nodes introduces correlated observations, effecting the performance of Compressive Sensing (CS) algorithm. This paper introduces a novel minimum distance separation aided compressive sensing algorithm (MDACS). The algorithm selectively eliminates Secondary User (SU) power observations from the set of SU receiving terminals such that pairs of the remaining SUs are separated by a minimum geographic distance.We have evaluated the detection of multiple sparse targets locations and error in l₂-norm of the recovery vector. The proposed method offers an improvement in detection ratio by 20% while reducing the error in l₂-norm by 57%.

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KW - Compressive Sensing

KW - Radio Environment Map

KW - localization

KW - power measurements

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Effective sensor positioning to localize target transmitters in a Cognitive Radio Network

Abstract

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Keywords

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