Dávid Kušnirák scite author profile

Dávid Kušnirák

5Publications

67Citation Statements Received

98Citation Statements Given

How they've been cited

110

How they cite others

Affiliations

Comenius University Bratislava

Publications

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Determination of cavities using electrical resistivity tomography

Putiška

Nikolaj²,

Dostál

et al. 2012

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Geophysical surveys for cavity detection are one of the most common nearsurface applications. The usage of resistivity methods is also very straightforward for the air-filled underground voids, which should have theoretically infinite resistivity in the ERT image. In the first part of the paper, we deal with the comparison of detectability of the cavity by several types of the electrode arrays, the second part discusses the effect of a thin layer around the cavity itself, by means of 2D modelling. The presence of this layer deforms the resistivity image significantly as the resistive anomaly could be turned into a conductive one, in the case when the thin layer is more conductive than the background environment. From the electrical array analysis for the model situation a dipole-dipole and combined pole-dipole shows the best results among the other involved electrical arrays.

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Microgravity and Ground‐penetrating Radar Investigations of Subsurface Features at the St Catherine's Monastery, Slovakia

Pánisová

Fraštia

Wunderlich

et al. 2013

Archaeological Prospection

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The ruins of the St Catherine's monastery complex, the largest sacral ruins in Slovakia, are an important example of Slovak cultural heritage. The Franciscan monastery was a famous site of religious significance due to the legends describing the apparitions of St Catherine. The preservation project of the monastery remains started in 1994. As a part of this project, complex historical, archaeological, anthropological and geophysical research has been conducted at the site since 1997. Microgravity and ground-penetrating radar (GPR) surveys were carried out in the nave of the former church in order to reveal the position of three aristocratic crypts that served as burial places for the members or higher society in the seventeenth and eighteenth centuries. In the microgravity data processing, a novel method for the calculation of the building correction was employed, where the gravitational effect of the church is calculated using a polyhedral model of the building created from photographs with a special photogrammetric software. Several gravity anomalies were found in the residual Bouguer anomaly map. Semi-automated interpretation techniques including the Euler deconvolution and harmonic inversion have been used to investigate the depth and size of anomalous sources. Results from 36 GPR profiles obtained by a 400 MHz antenna were visualized in the form of horizontal timeslices and vertical time-sections. These images indicate anomalous reflections suggesting potential archaeological targets. Integrated interpretation of results from both geophysical methods has confirmed the presence of a known aristocratic crypt excavated in 2001, as well as two other crypts predicted from historical archives. The combination of microgravity and GPR surveys has proved to be a very effective and non-destructive tool for archaeological research.

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Integrated Geophysical and Geological Investiga-tions of Karst Structures in Komberek, Slovakia

Putiška¹,

Kušnirák²,

Dostál³

et al. 2014

JCKS

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A complex of geophysical methods were used to investigate a small karst area aimed at the production of detailed geological mapping, to confirm geological localization of known sinkholes, and to find possible continuations of caves and voids below the surface. The dipole electromagnetic profiling and radiometric mapping (the gamma-ray spectrometry method) were applied to determine the spatial distribution of hard carbonate rocks and weathered valley-fill sediments. Detailed high-definition magnetometry was carried out at selected sites in the studied region with the aim of distinguishing between sinkholes and man-made lime-kilns, pits where limestone was heated and transformed into lime. The microgravity and the electrical-resistivity tomography (ERT) methods were used to create high-resolution images of the underground cave. The results of ERT and the geological survey were used as an initial model for gravity modeling. Subsurface cavities of various sizes are contrasting geophysical objects, and the electrical resistivity can range from very conductive to relatively resistive depending on the composition of the filling materials. The interpretation of resistivity properties is not always straightforward. We must distinguish air-filled (high-resistivity) and loamy water-filled (low-resistivity) cavities and fractures. The combined geophysical methodology permits us to determine a more accurate near-surface geological model, in our case the parallel interpretation of a strong conductive anomaly in the ERT inversion and a predominant density decrease in the gravity modelling yield the presence of cavities at depths approximately of 50 to 60 m below the surface.

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Matlab tool REGCONT2: effective source depth estimation by means of Tikhonov’s regularized downwards continuation of potential fields

Pašteka

Kušnirák

Karcol

2018

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Transformation based on downward continuation of potential fields is an important tool in their interpretation – depths of shallowest important sources can be determined by means of stable downward continuation algorithms. We analyse here selected properties of one from these algorithms (based on Tikhonov’s regularization approach) from the scope of two most important discretization parameters – dimensions of the areal coverage of the interpreted field and the sampling interval size. Estimation of the source depth is based on the analysis of computed LP-norms for various continuation depths. A typical local minimum of these norms disappears at the source depth. We show on several synthetic bodies (sphere, horizontal cylinder, vertical rod) and also real-world data-sets (results from a magnetic survey for unexploded ordnance detection) that there is a need for relatively large surroundings around the interpreted anomalies. Beside of this also the sampling step plays its important role – grids with finer sampling steps give better interpretation results, when using this downward continuation method. From this point of view, this method is more suitable for the interpretation of objects in near surface and mining geophysics (anomalies from cavities, unexploded ordnance objects and ore bodies). Anomalies should be well developed and separable, and densely sampled. When this is not valid, several algorithms of interpolation and extrapolation (grid padding methods) can improve the interpretation properties of studied downward continuation method.

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High resolution Slovak Bouguer gravity anomaly map and its enhanced derivative transformations: new possibilities for interpretation of anomalous gravity fields

Pašteka

Zahorec

Kušnirák

et al. 2017

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Abstract:The paper deals with the revision and enrichment of the present gravimetric database of the Slovak Republic. The output of this process is a new version of the complete Bouguer anomaly (CBA) field on our territory. Thanks to the taking into account of more accurate terrain corrections, this field has significantly higher quality and higher resolution capabilities. The excellent features of this map will allow us to re-evaluate and improve the qualitative interpretation of the gravity field when researching the structural and tectonic geology of the Western Carpathian lithosphere. In the contribution we also analyse the field of the new CBA based on the properties of various transformed fields -in particular the horizontal gradient, which by its local maximums defines important density boundaries in the lateral direction. All original and new transformed maps make a significant contribution to improving the geological interpretation of the CBA field. Except for the horizontal gradient field, we are also interested in a new special transformation of TDXAS, which excellently separates various detected anomalies of gravity field and improves their lateral delimitation.

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