The way potential fields convey source information depends on the scale at which the field is analysed. In this sense a multiscale analysis is a useful method to study potential fields particularly when the main field contributions are caused by sources with different depths and extents. Our multiscale approach is built with a stable transformation, such as depth from extreme points. Its stability results from mixing, in a single operator, the wavenumber low-pass behaviour of the upward continuation transformation of the field with the enhancement high-pass properties of n-order derivative transformations. So, the complex reciprocal interference of several field components may be efficiently faced at several scales of the analysis and the d...
Potential field interpretation can be carried out using multiscale methods. This class of methods an...
We analyse the real Continuous Wavelet Transform 2D (CWT2D) of potential fields for the investigatio...
We present the results of a multidisciplinary and multiscale study at Mt. Massico, Southern Italy. ...
The way potential fields convey source information depends on the scale at which the field is analys...
We interpreted selected profiles of the Gravity Bouguer anomalies in Southern Apennines by a two-ste...
We use a multiscale approach as a semi-automated interpreting tool of potential fields. The depth t...
SUMMARY We use a multiscale approach as a semi-automated interpreting tool of potential fields. T...
We demonstrate the effectiveness of the potential-field multiscale approach when used as a tool for ...
A complex aeromagnetic anomaly in Southern Apennines (Italy) is analysed and interpreted by a multis...
A new method based on 3D multiridge analysis of potential fields assumes a 3D subset in the harmonic...
We start from the general inverse problem for potential fields and discuss the validity and suitabil...
A new method based on 3D multiridge analysis of potential fields assumes a 3D subset in the harmonic...
Abstract (max. 250 words) The integration of surface geological investigations with geophysical te...
Potential field interpretation can be carried out using multiscale methods. This class of methods an...
We analyse the real Continuous Wavelet Transform 2D (CWT2D) of potential fields for the investigatio...
We present the results of a multidisciplinary and multiscale study at Mt. Massico, Southern Italy. ...
The way potential fields convey source information depends on the scale at which the field is analys...
We interpreted selected profiles of the Gravity Bouguer anomalies in Southern Apennines by a two-ste...
We use a multiscale approach as a semi-automated interpreting tool of potential fields. The depth t...
SUMMARY We use a multiscale approach as a semi-automated interpreting tool of potential fields. T...
We demonstrate the effectiveness of the potential-field multiscale approach when used as a tool for ...
A complex aeromagnetic anomaly in Southern Apennines (Italy) is analysed and interpreted by a multis...
A new method based on 3D multiridge analysis of potential fields assumes a 3D subset in the harmonic...
We start from the general inverse problem for potential fields and discuss the validity and suitabil...
A new method based on 3D multiridge analysis of potential fields assumes a 3D subset in the harmonic...
Abstract (max. 250 words) The integration of surface geological investigations with geophysical te...
Potential field interpretation can be carried out using multiscale methods. This class of methods an...
We analyse the real Continuous Wavelet Transform 2D (CWT2D) of potential fields for the investigatio...
We present the results of a multidisciplinary and multiscale study at Mt. Massico, Southern Italy. ...