Interpolation artifacts as a result of spatial aliasing: A case study of the airborne magnetic data set of southeastern Minas Gerais, Brazil

Fonte-Boa, Tobias; Melo, Aline; Novo, Tiago Amâncio

doi:10.1190/geo2019-0782.1

Cited by 3 publications

(3 citation statements)

References 27 publications

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“…5c). Indeed, to increase the reliability of the estimation, additional ground-truthing or control points are needed to improve azimuthal control and perform accurate interpolation (Grohmann and Steiner, 2008;Morlighem et al, 2014;Majdanski, 2012;Fonte-Boa et al, 2020). Nevertheless, the vertical thickness of these deposits resulting from seismic data or spatial interpolation appeared to be highly consistent with values recorded throughout the Mediterranean (Molinier and Picard, 1952;Lo Iacono et al, 2008;Serrano et al, 2012Serrano et al, , 2014Serrano et al, , 2016a.…”

Section: Discussionmentioning

confidence: 90%

Sizing the carbon sink associated with Posidonia oceanica seagrass meadows using very high-resolution seismic reflection imaging

Monnier

Pergent

Carbonell

et al. 2021

Marine Environmental Research

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Section: Discussionmentioning

confidence: 90%

Sizing the carbon sink associated with Posidonia oceanica seagrass meadows using very high-resolution seismic reflection imaging

Monnier

Pergent

Carbonell

et al. 2021

Marine Environmental Research

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“…If not carefully monitored, this can lead to inappropriate interpretation of some features as anthropogenic 'source' anomalies, when in reality, they are a consequence of the gridding algorithm. Localized domes and basins are common artefacts produced by the standard minimum curvature gridding algorithm (Fonte-Boa et al, 2020). For this study, we used a 25 m grid cell for 100 m line spacing data, which represents the upper limit of commonly acceptable gridding practice.…”

Section: Numericalmentioning

confidence: 99%

“…This is a common problem with gridding algorithms like minimum curvature: they are not able to resolve elongated trends that are at an acute angle to the flight path, and thus produce several high-amplitude small circular features along this (usually geological) trend. As a result, we could end with a situation where the total field grid and associated sub-products show high amplitude, circular features of a size just under the survey line spacing, and therefore would resemble anthropogenic noise (Fonte-Boa et al, 2020). The multi-parameter approach we used in this study is based on the analysis of gridded data using a standard minimum curvature gridding algorithm.…”

Section: Normalized Valuementioning

confidence: 99%

A multi‐parameter approach for recognition of anthropogenic noise in aeromagnetic data collected over populated areas: Erzgebirge, Germany

Morris

Ugalde

Kirsch

et al. 2022

Geophysical Prospecting

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Aeromagnetic data are routinely acquired by mineral exploration programmes. The objective is to obtain a raster image of the spatial variations of magnetic field intensity; these variations are associated with mineralogical variations in the subsurface. When the survey is conducted in a populated area, much of the signal, however, may be associated with anthropogenic sources such as buildings and roads. Identification and minimization of the anthropogenic-related signal then are essential to derive a useful product for geological mapping. In this work, we examine a scalar magnetic dataset from Geyer, Saxony, and we apply five approaches for locating regions of anomalous anthropogenic signal: signal amplitude, absolute fourth difference, signal standard deviation, enhanced horizontal gradient and curvedness. All are shown to produce similar responses, and the summation of the five results compares favourably with the standard Keating kimberlite (circular anomaly) approach for detecting anthropogenic signals. Complications arise when geological features produce signals of similar amplitude to anthropogenic sources. Differentiating the probable origin of any specific pattern can be assessed by using a 2D shape index and increased flight height. Verification of an anthropogenic anomaly is achieved by comparison of anomalous solution grids with Geographic Information System-based reference data.

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Fourier domain vertical derivative of the nonpotential squared analytical signal of dike and step magnetic anomalies: A case of serendipity

de Souza,

Oliveira,

Szameitat

et al. 2024

GEOPHYSICS

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Vertical derivatives of non-potential fields are, intentionally or not, often performed in the Fourier domain producing nonphysical but interpretable results. Using the dike model, we prove that the vertical derivative of the squared Analytic Signal Amplitude calculated in the Fourier domain does not correspond to the true one. We derive an analytical expression for this pseudo-vertical derivative, providing a mathematical meaning for it. One significant difference between the pseudo and true vertical derivative is that the former possesses real roots, while the latter does not. Taking advantage of this attribute, we show using synthetic and field data that the pseudo-vertical derivative can be used for qualitative and quantitative interpretation of magnetic data, despite being nonphysical. As an example of the usefulness of this filter in the qualitative interpretation we convert the image of the pseudo-derivative to a binary image where the anomalies are treated as discrete objects. This allows us to morphologically enhance, disconnect, classify and filter them using tools of shape analysis and mathematical morphology. We also illustrate its usefulness in quantitative interpretation by deriving a formula for estimating the depths of magnetic thin dikes and infinite steps. Our outcomes were also corroborated by outcrops observation found by field surveys.

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Interpolation artifacts as a result of spatial aliasing: A case study of the airborne magnetic data set of southeastern Minas Gerais, Brazil

Cited by 3 publications

References 27 publications

Sizing the carbon sink associated with Posidonia oceanica seagrass meadows using very high-resolution seismic reflection imaging

Sizing the carbon sink associated with Posidonia oceanica seagrass meadows using very high-resolution seismic reflection imaging

A multi‐parameter approach for recognition of anthropogenic noise in aeromagnetic data collected over populated areas: Erzgebirge, Germany

Fourier domain vertical derivative of the nonpotential squared analytical signal of dike and step magnetic anomalies: A case of serendipity

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