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dc.contributor.authorTingay, Steven
dc.contributor.authorKaplan, D.L.
dc.contributor.authorMcKinley, B.
dc.contributor.authorBriggs, F.
dc.contributor.authorWayth, Randall
dc.contributor.authorHurley-Walker, N.
dc.contributor.authorKennewell, J.
dc.contributor.authorSmith, C.
dc.contributor.authorZhang, K.
dc.contributor.authorArcus, W.
dc.contributor.authorBhat, Ramesh
dc.contributor.authorEmrich D.
dc.contributor.authorHerne, D.
dc.contributor.authorKudryavtseva, N.
dc.contributor.authorLynch, M.
dc.contributor.authorOrd, S.M.
dc.contributor.authorWaterson, M.
dc.contributor.authorBarnes, D.G.
dc.contributor.authorBell, M.
dc.contributor.authorGaensler, B.M.
dc.contributor.authorLenc, E.
dc.contributor.authorBernardi, G.
dc.contributor.authorGreenhill, L.J.
dc.contributor.authorKasper, J.C.
dc.contributor.authorBowman, J.D.
dc.contributor.authorJacobs, D.
dc.contributor.authorBunton, J.D.
dc.contributor.authorDesouza, L.
dc.contributor.authorKoenig, R.
dc.contributor.authorPathikulangara, J.
dc.contributor.authorStevens, J.
dc.contributor.authorCappallo, R.J.
dc.contributor.authorCorey, B.E.
dc.contributor.authorKincaid, B.B.
dc.contributor.authorKratzenberg, E.
dc.contributor.authorLonsdale, C.J.
dc.contributor.authorMcWhirter, S.R.
dc.contributor.authorRogers, A.E.E.
dc.contributor.authorSalah, J.E.
dc.contributor.authorWhitney, A.R.
dc.contributor.authorDeshpande, A.
dc.contributor.authorPrabu, T.
dc.contributor.authorUdaya Shankar, N.
dc.contributor.authorSrivani, K.S.
dc.contributor.authorSubrahmanyan, R.
dc.contributor.authorEwall-Wice, A.
dc.contributor.authorFeng, L.
dc.contributor.authorGoeke, R.
dc.contributor.authorMorgan, E.
dc.contributor.authorRemillard, R.A.
dc.contributor.authorWilliams, C.L.
dc.contributor.authorHazelton, B.J.
dc.contributor.authorMorales, M.F.
dc.contributor.authorJohnston-Hollitt, M.
dc.contributor.authorMitchell, D.A.
dc.contributor.authorProcopio, P.
dc.contributor.authorRiding, J.
dc.contributor.authorWebster, R.L.
dc.contributor.authorWyithe, J.S.B.
dc.contributor.authorOberoi, D.
dc.contributor.authorRoshi, A.
dc.contributor.authorSault, R.J.
dc.contributor.authorWilliams, A.
dc.date.accessioned2017-01-30T15:24:08Z
dc.date.available2017-01-30T15:24:08Z
dc.date.created2013-10-17T20:01:03Z
dc.date.issued2013
dc.identifier.citationTingay, S.J. and Kaplan, D.L. and McKinley, B. and Briggs, F. and Wayth, R.B. and Hurley-Walker, N. and Kennewell, J. 2013. On the detection and tracking of space debris using the Murchison Widefield Array. I. Simulations and test observations demonstrate feasibility. Astronomical Journal. 146 (103).
dc.identifier.urihttp://hdl.handle.net/20.500.11937/45927
dc.identifier.doi10.1088/0004-6256/146/4/103
dc.description.abstract

The Murchison Widefield Array (MWA) is a new low-frequency interferometric radio telescope, operating in the benign radio frequency environment of remote Western Australia. The MWA is the low-frequency precursor to the Square Kilometre Array (SKA) and is the first of three SKA precursors to be operational, supporting a varied science mission ranging from the attempted detection of the Epoch of Reionization to the monitoring of solar flares and space weather. In this paper we explore the possibility that the MWA can be used for the purposes of Space Situational Awareness (SSA). In particular we propose that the MWA can be used as an element of a passive radar facility operating in the frequency range 87.5-108 MHz (the commercial FM broadcast band). In this scenario the MWA can be considered the receiving element in a bi-static radar configuration, with FM broadcast stations serving as non-cooperative transmitters. The FM broadcasts propagate into space, are reflected off debris in Earth orbit, and are received at the MWA. The imaging capabilities of the MWA can be used to simultaneously detect multiple pieces of space debris, image their positions on the sky as a function of time, and provide tracking data that can be used to determine orbital parameters. Such a capability would be a valuable addition to Australian and global SSA assets, in terms of southern and eastern hemispheric coverage. We provide a feasibility assessment of this proposal, based on simple calculations and electromagnetic simulations, that shows that the detection of sub-meter size debris should be possible (debris radius of >0.5 m to ∼1000 km altitude). We also present a proof-of-concept set of observations that demonstrate the feasibility of the proposal, based on the detection and tracking of the International Space Station via reflected FM broadcast signals originating in southwest Western Australia. These observations broadly validate our calculations and simulations. We discuss some significant challenges that need to be addressed in order to turn the feasible concept into a robust operational capability for SSA. The aggregate received power due to reflections off space debris in the FM band is equivalent to a <1 mJy increase in the background confusion noise for the long integrations needed for Epoch of Reionization experiments, which is insignificant.

dc.publisherIOP
dc.subjectgeneral-planets and satellites
dc.subjectplanets and satellites
dc.subjectEarth-instrumentation
dc.subjectinterferometers
dc.subjectradar astronomy
dc.subjectindividual (International Space Station)-techniques
dc.titleOn the detection and tracking of space debris using the Murchison Wdefield Array. I. Simulations and test observations demonstrate feasibility
dc.typeJournal Article
dcterms.source.volume146
dcterms.source.number103
dcterms.source.startPage1
dcterms.source.endPage24
dcterms.source.issn0004-6256
dcterms.source.titleAstronomical Journal
curtin.department
curtin.accessStatusOpen access


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