Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6720407 | Construction and Building Materials | 2015 | 32 Pages |
Abstract
Laboratory research aimed at characterising the electromagnetic properties has enabled researchers worldwide to determine ballast thickness using impulse ground penetrating radar (GPR) - based upon derived values of the relative electrical permittivity or dielectric constant. In this paper, a series of GPR experiments, following on from these laboratory experiments, were undertaken on a full scale track bed using a range of bowtie antennas from 500Â MHz to 2.6Â GHz. The key innovation reported is the use of scatter analyses of the GPR waveforms, featuring area, axis crossing and inflexion point analyses. These scatter analyses were then used to predict the Ionescu ballast fouling index. A correlation coefficient greater than 0.9 was obtained by using a 500Â MHz bowtie antenna in the parallel orientation in conjunction with a scan area analysis.
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Authors
R. De Bold, G. O'Connor, J.P. Morrissey, M.C. Forde,