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dc.contributor.authorLawrence, N.en
dc.contributor.authorDavis, L.en
dc.contributor.authorHaley, D.en
dc.identifier.citationProceedings of the Australian Communications Theory Workshop (AusCTW 2013), 2013 / pp.99-104en
dc.description.abstractSpatial multiple-input multiple-output (MIMO) offers increased rate and/or reliability in rich scattering environments such as that of a multipath non-line-of-sight (NLOS) channel. In line-of-sight (LOS) dominated conditions, spatial diversity is reduced. Dual polarisation signalling has been shown to successfully exploit polarisation diversity when LOS is dominant. For satellite systems, such state-of-the-art dual-polarisation techniques do not currently account for the 3D geometry of the link, and specifically the polarisation mismatch from misalignment of the antenna elements. Performance loss due to the mismatch in antenna orientation can be overcome by using 3D polarimetric antennas at both the transmitter and receiver. In this paper, we present a novel polarimetric LOS MIMO channel model by combining satellite geometry, the Friis equation and polarisation mismatch. Our emphasis is on polarisation mismatch and how this varies over the field-of-view (FOV). Our model offers the opportunity for 3D polarimetric signalling techniques to deliver enhanced and more consistent link performance over the FOV.en
dc.description.statementofresponsibilityNicholas Lawrence, Linda M. Davis, David Haleyen
dc.rights©2013 IEEEen
dc.titleA polarimetric line-of-sight channel model for MIMO satellite communicationsen
dc.typeConference paperen
dc.contributor.conferenceAustralian Communications Theory Workshop (AusCTW 2013) (29 Jan 2013 - 01 Feb 2013 : Adelaide, South Australia)en
dc.publisher.placePiscataway, NJen
pubs.library.collectionElectrical and Electronic Engineering publicationsen
Appears in Collections:Electrical and Electronic Engineering publications

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