Evaluation of the reconstruction limits of a frequency-independent crosshole georadar waveform inversion scheme in the presence of dispersion


Autoria(s): Belina F.; Irving J.; Holliger K.
Data(s)

2012

Resumo

Waveform tomographic imaging of crosshole georadar data is a powerful method to investigate the shallow subsurface because of its ability to provide images of pertinent petrophysical parameters with extremely high spatial resolution. All current crosshole georadar waveform inversion strategies are based on the assumption of frequency-independent electromagnetic constitutive parameters. However, in reality, these parameters are known to be frequency-dependent and complex and thus recorded georadar data may show significant dispersive behavior. In this paper, we evaluate synthetically the reconstruction limits of a recently published crosshole georadar waveform inversion scheme in the presence of varying degrees of dielectric dispersion. Our results indicate that, when combined with a source wavelet estimation procedure that provides a means of partially accounting for the frequency-dependent effects through an "effective" wavelet, the inversion algorithm performs remarkably well in weakly to moderately dispersive environments and has the ability to provide adequate tomographic reconstructions.

Identificador

https://serval.unil.ch/?id=serval:BIB_06CFC79D20C7

doi:10.1016/j.jappgeo.2011.03.003

Idioma(s)

en

Fonte

Journal of Applied Geophysics, vol. 78, pp. 9-19

Palavras-Chave #Waveform inversion; Crosshole GPR; Frequency-dependent permittivity;; Constant Q; FDTD
Tipo

info:eu-repo/semantics/article

article