Increasing the Lateral Resolution of 3D-GPR Datasets through 2D-FFT Interpolation with Application to a Case Study of the Roman Villa of Horta da Torre (Fronteira, Portugal)
Metadatos
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MDPI
Materia
Applied geophysics Digital signal processing Enhancement of sharpness of 3D-GPR datasets 2D Fourier interpolation GPR data densification
Fecha
2022-08-20Referencia bibliográfica
Oliveira, R.J... [et al.]. Increasing the Lateral Resolution of 3D-GPR Datasets through 2D-FFT Interpolation with Application to a Case Study of the Roman Villa of Horta da Torre (Fronteira, Portugal). Remote Sens. 2022, 14, 4069. [https://doi.org/10.3390/rs14164069]
Patrocinador
research project "Innovacion abierta e inteligente en la EUROACE" 0049_INNOACE_4_E; European Commission COMPETE 2020; Portuguese Foundation for Science and Technology UIDB/04683/2020 SFRH/BSAB/143063/2018Resumen
The approach presented in this work uses an interpolation methodology to densify 3D-GPR
datasets to sharpen the results obtained in GPR surveys carried out in an archaeological environment.
It allows the estimation of missing data from the combined use of mathematical transforms, such
as the Fourier and curvelet transforms, and predictive filters. This technique makes it possible to
calculate the missing signal simply by meeting two requirements: the data in the frequency domain
must be limited in a range of values and must be able to be represented by a distribution of Fourier
coefficients (verified conditions). The INT-FFT algorithm uses an open-access routine (Suinterp,
Seismic Unix) to interpolate the GPR B-scans based on seismic trace interpolation. This process uses
automatic event identification routines by calculating spatial derivatives to identify discontinuities in
space by detecting very subtle changes in the signal, thus allowing for more efficient interpolation
without artifacts or signal deterioration. We successfully tested the approach using GPR datasets
from the Roman villa of Horta da Torre (Fronteira, Portugal). The results showed an increase in
the geometric sharpness of the GPR reflectors and did not produce any numerical artifacts. The
tests performed to apply the methodology to GPR-3D data allowed for assessing the interpolation
efficiency, the level of estimation of missing data, and the level of information lost when we chose to
increase the distance between B-scans in the acquisition stage.