On localization with robust power control for safety critical wireless sensor networks

dc.contributor.authorWalsh, Michael
dc.contributor.authorFee, Anthony
dc.contributor.authorBarton, John
dc.contributor.authorO'Flynn, Brendan
dc.contributor.authorHayes, Martin J.
dc.contributor.authorÓ Mathúna, S. Cian
dc.contributor.funderScience Foundation Irelanden
dc.date.accessioned2012-07-26T09:45:15Z
dc.date.available2012-07-26T09:45:15Z
dc.date.issued2011-02
dc.date.updated2012-07-26T09:34:21Z
dc.description.abstractA hybrid methodology is proposed for use in low power, safety critical wireless sensor network applications, where quality-of-service orientated transceiver output power control is required to operate in parallel with radio frequency-based localization. The practical implementation is framed in an experimental procedure designed to track a moving agent in a realistic indoor environment. An adaptive time synchronized approach is employed to ensure the positioning technique can operate effectively in the presence of dataloss and where the transmitter output power of the mobile agent is varying due to power control. A deterministic multilateration-based positioning approach is adopted and accuracy is improved by filtering signal strength measurements overtime to account for multipath fading. The location estimate is arrived at by employing least-squares estimation. Power control is implemented at two separate levels in the network topology. First, power control is applied to the uplink between the tracking reference nodes and the centralized access point. A number of algorithms are implemented highlighting the advantage associated with using additional feedback bandwidth, where available, and also the need for effective time delay compensation. The second layer of power control is implemented on the uplink between the mobile agent and the access point and here quantifiable improvements in quality of service and energy efficiency are observed. The hybrid paradigm is extensively tested experimentally on a fully compliant 802.15.4 testbed, where mobility is considered in the problem formulation using a team of fully autonomous robots.A hybrid methodology is proposed for use in low power, safety critical wireless sensor network applications, where quality-of-service orientated transceiver output power control is required to operate in parallel with radio frequency-based localization. The practical implementation is framed in an experimental procedure designed to track a moving agent in a realistic indoor environment. An adaptive time synchronized approach is employed to ensure the positioning technique can operate effectively in the presence of dataloss and where the transmitter output power of the mobile agent is varying due to power control. A deterministic multilateration-based positioning approach is adopted and accuracy is improved by filtering signal strength measurements overtime to account for multipath fading. The location estimate is arrived at by employing least-squares estimation. Power control is implemented at two separate levels in the network topology. First, power control is applied to the uplink between the tracking reference nodes and the centralized access point. A number of algorithms are implemented highlighting the advantage associated with using additional feedback bandwidth, where available, and also the need for effective time delay compensation. The second layer of power control is implemented on the uplink between the mobile agent and the access point and here quantifiable improvements in quality of service and energy efficiency are observed. The hybrid paradigm is extensively tested experimentally on a fully compliant 802.15.4 testbed, where mobility is considered in the problem formulation using a team of fully autonomous robots.en
dc.description.sponsorshipScience Foundation Ireland (CSET - Centre for Science, Engineering and Technology, grant 07/CE/I1147); Science Foundation Ireland (ITOBO (398-CRP))en
dc.description.statusPeer revieweden
dc.description.versionAccepted Versionen
dc.format.mimetypeapplication/pdfen
dc.identifier.citationWalsh, Michael; Fee, Anthony; Barton, John; O'Flynn, Brendan; Hayes, Martin; Ó Mathúna, S. Cian (2011) 'On localization with robust power control for safety critical wireless sensor networks'. Journal of Control Theory and Applications, 9 (11):83-92. doi: 10.1007/s11768-011-0253-6en
dc.identifier.doi10.1007/s11768-011-0253-6
dc.identifier.endpage92en
dc.identifier.issn1672-6340
dc.identifier.issued11en
dc.identifier.journaltitleJournal of Control Theory and Applicationsen
dc.identifier.startpage83en
dc.identifier.urihttps://hdl.handle.net/10468/643
dc.identifier.volume9en
dc.language.isoenen
dc.publisherSouth China University of Technology and Academy of Mathematics and Systems Science, CAS. Springer-Verlagen
dc.relation.project07 CE I1147
dc.relation.project07 CE I1147
dc.rights©South China University of Technology and Academy of Mathematics and Systems Science, CAS and Springer-Verlag Berlin Heidelberg 2011. The original publication is available at www.springerlink.com.en
dc.subjectPower controlen
dc.subjectLocalizationen
dc.subject.lcshWireless sensor networksen
dc.titleOn localization with robust power control for safety critical wireless sensor networksen
dc.title.alternativeOn localisation with robust power control for safety critical wireless sensor networksen
dc.typeArticle (peer-reviewed)en
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