Your search keyword '"Verbeurgt, Jeffrey"' showing total 16 results

1. Support vector regression for high-resolution beach surface moisture estimation from terrestrial LiDAR intensity data

Author

Jin, Junling, Verbeurgt, Jeffrey, De Sloover, Lars, Stal, Cornelis, Deruyter, Greet, Montreuil, Anne-Lise, Vos, Sander, De Maeyer, Philippe, and De Wulf, Alain

Published

2021

2. Monitoring spatiotemporal variation in beach surface moisture using a long-range terrestrial laser scanner

Author

Jin, Junling, Verbeurgt, Jeffrey, De Sloover, Lars, Stal, Cornelis, Deruyter, Greet, Montreuil, Anne-Lise, Vos, Sander, De Maeyer, Philippe, and De Wulf, Alain

Published

2021

3. Assessment of handheld mobile terrestrial laser scanning for estimating tree parameters

Author

Stal, Cornelis, Verbeurgt, Jeffrey, De Sloover, Lars, and De Wulf, Alain

Published

2021

4. Post Mining Ground Deformations Transition Related to Coal Mines Closure in the Campine Coal Basin, Belgium, Evidenced by Three Decades of MT-InSAR Data.

Author

Declercq, Pierre-Yves, Dusar, Michiel, Pirard, Eric, Verbeurgt, Jeffrey, Choopani, Atefe, and Devleeschouwer, Xavier

Subjects

COAL mining, COAL basins, MINE closures, COALFIELDS, RADAR interferometry, GLOBAL Positioning System

Abstract

Spatio-temporal ground-movement measurements and mappings have been carried out in the Campine coalfield in Belgian Limburg since the closure of the mines to document post-mining effects. MT-InSAR measurements are compared to groundwater head changes in the overburden and to height data from the closest GNSS stations. Radar interferometry is used to estimate the extension and the velocity of ground movements. In particular, the MT-InSAR technique has been applied to SAR acquisitions of the satellites ERS-1/2 (1991–2005), ENVISAT (2003–2010), COSMO-SkyMed (2011–2014), and Sentinel-1A (2014–2022). The images were processed and used to highlight a switch from subsidence to uplift conditions in the western part of the coal basin, while the eastern part had already been affected by a rebound since the beginning of the ERS-1/2 acquisitions. Following the closure of the last active colliery of Zolder in 1992 and the subsequent cease of mine-water pumping, a recharge of mine-water aquifers occurred in the western part of the basin. This process provoked the change from subsidence to uplift conditions that was recorded during the ENVISAT period. In the center of the coal-mining area, measured uplift velocities reached a maximum of 18 mm/year during the ENVISAT period, while they subsided at −12 mm/year during the ERS-1/2 period. Mean velocities in the western and eastern parts of the coalfield area have decreased since the last MT-InSAR measurements were performed using Sentinel-1A, while the Zolder coal mine continues to rise at a faster-than-average rate of a maximum of 16 mm/year. The eastern part of the coalfield is still uplifting, while its rate has been reduced from 18 mm/year (ERS-1/2) to 9 mm/year (Sentinel-1A) since the beginning of the radar–satellite observations. Time-series data from the two GNSS stations present in the study area were used for a local comparison with the evolution of ground movements observed by MT-InSAR. Two leveling campaigns (2000, 2013) were also used to make comparisons with the MT-InSAR data. The station's measurements and the leveling data were in line with the MT-InSAR data. Overall, major ground movements are obviously limited to an extension of the actual underground-mining works and rapidly diminish outside of them. [ABSTRACT FROM AUTHOR]

Published

2023

5. Italian aerial photographs of Ethiopia (1935-1941) : their recovery and digital archiving for scientific purposes

Author

Frankl, Amaury, Nyssen, Jan, Gebremeskel, Gezahegne, Petrie, G., Mullaw, Biadgilgn Demissie, De Vriese, Steven, and Verbeurgt, Jeffrey

Subjects

Historical Aerial Photographs, Earth and Environmental Sciences, Photogrammetry, Online Archive, Ethiopia

Published

2021

6. Sensitivities in Wind Driven Spectral Wave Modelling for the Belgian Coast.

Author

van Eeden, Frans, Klonaris, Georgios, Verbeurgt, Jeffrey, Troch, Peter, and De Wulf, Alain

Subjects

COASTS, EXTREME value theory, WIND waves, PARAMETERS (Statistics)

Abstract

This paper presents the analysis of spectral wind-wave modelling (using SWAN) of the North Sea focusing on the modelled wave parameters along the Belgian coast. Two wind databases were used to drive the model: ECMWF-ERA5 reanalysis and the Dutch Offshore Wind Atlas. The models were calibrated with measured data at various stations along the Belgian coastline. The accuracy in terms of wave parameter statistics was compared for the calibrated and uncalibrated models. It was found that a calibrated SWAN model does, in general, produce more accurate results when compared to measured data for stations along the Belgian coastline even though not by any significant margin. Comparing the two wind databases, on the modelling scale conducted in this study, there is no advantage observed in using a spatially finer scale wind database over a coarser database to force the model. The grid sizes were varied in the models and marginal differences were observed in the modelled data. The long-term extreme value statistics were calculated for various grid sizes and compared to published values. It is shown that the extreme value statistics are relatively insensitive to the grid density and thus much time can be saved on long-term modelling on this model scale. In addition, a benefit to the practise of grid nesting is demonstrated when considering complex bathymetric effects that have an influence on wave transformation in the shallower areas of the coast, especially along the Belgian coastline demarcated with its numerous sandbanks. [ABSTRACT FROM AUTHOR]

Published

2022

7. On Finding a Projected Coordinate Reference System.

Author

Stal, Cornelis, De Sloover, Lars, Verbeurgt, Jeffrey, and De Wulf, Alain

Subjects

CARTOGRAPHY, COORDINATES, STAKEHOLDERS, METHODOLOGY, DATA analysis

Abstract

The digital age has brought about an explosion in the growth of data, of which data with a geographical component stands out. Proper use of geographical data comes with the need for correct coordinate reference systems (CRSs). They are considered the ultimate binder for interoperability between geospatial data actors and stakeholders. Moreover, CRSs are crucial for the visual and analytical integration of geospatial data from disparate data sources. However, CRSs might be—for numerous reasons—incorrectly assigned or even missing. The result is a time-consuming study of the map, literature, and available resources to ultimately find the alleged right CRS. This study provides a summary of prevailing resources from national mapping agencies of some European countries to address the above problem. Secondly, and most importantly, is the development of an open-source Python-based software package. This software package aims to accurately estimate the best candidate CRS, given a tuple of coordinates at a priori an approximately known location. It is controlled by geocoding the known location and intersecting the resulting coordinate with the bounding box of all CRSs in the EPSG-database. An in-depth review of CRS tools by mapping authorities reveals, in particular, limitations concerning the countries' spatial areas, in combination with often required know-how of local CRSs. To address these shortcomings, our tool is developed to enable a more generic extraction of CRSs for any given location worldwide. Testing proved successful for 30 different maps, with a grid present on the map and the CRS of the map being included in the EPSG-database. [ABSTRACT FROM AUTHOR]

Published

2022

8. Online digital archive of aerial photographs (1935–1941) of Ethiopia.

Author

Nyssen, Jan, Debever, Martijn, Gebremeskel, Gezahegne, De Wit, Bart, Hadgu, Kiros Meles, De Vriese, Steven, Verbeurgt, Jeffrey, Frankl, Amaury, Besha, Tulu, Kropáček, Jan, Forceville, Astrid, and Demissie, Biadgilgn

Subjects

AERIAL photographs, PHOTOGRAPHY archives, DIGITAL libraries, TOPOGRAPHIC maps, ARMED Forces

Abstract

The archive of aerial photographs, dating 1935–1941 and covering parts of north and central of Ethiopia, is one of the few archives with pre‐1960 remotely sensed data in Africa. It allows adding 30 years of time depth for geographical studies, in contrast to the commonly known oldest imagery dating to 1964, sometimes 1958. These photographs were originally acquired by the Italian military forces, to obtain raw material for warfare purposes and the production of topographic maps. To make the archive accessible, it has been scanned and georeferenced. Procedures used in georeferencing and digitally archiving are detailed in this paper, as well as our experiences with orthorectification and use of the photosets in scientific research. This data set of aerial photographs of Ethiopia in the 1930s has been availed to the wider scientific community through the Pangaea website http://doi.org/10.1594/PANGAEA.920077 (Nyssen et al., 2020, Aerial photographs of Ethiopia 1935–1941) Additionally, a web interface (http://www.ethiopia1935.ugent.be/) allows scientists visualizing the location of relocated photographs, and to select and freely order scenes of interest. [ABSTRACT FROM AUTHOR]

Published

2022

9. Macrotidal Beach Monitoring (Belgium) using Hypertemporal Terrestrial Lidar

Author

Deruyter, Greta, De Sloover, Lars, Verbeurgt, Jeffrey, De Wulf, Alain, and Vos, S.E.

Subjects

Continuous Terrestrial Laser Scanning, Coastal Monitoring, Beach Mapping, North Sea

Abstract

In order to protect the Belgian coast, knowledge on natural sand dynamics is essential. Monitoring sand dynamics is commonly done through sediment budget analysis, which relies on determining the volumes of sediment added or removed from the coastal system. These volumetrics require precise and accurate 3D data of the terrain on different time stamps. Earlier research states the potential of permanent long-range terrestrial laser scanning for continuous monitoring of coastal dynamics. For this paper, this methodology was implemented at an ultradissipative macrotidal North Sea beach in Mariakerke (Ostend, Belgium). A Riegl VZ-2000 LiDAR, mounted on a 42 m high building, scanned the intertidal and dry beach in a test zone of ca. 200 m wide on an hourly basis over a time period of one year. It appeared that the laser scanner could not be assumed to have a fixed zenith for each hourly scan. The scanner compensator measured a variable deviation of the Z-axis of more than 3.00 mrad. This resulted in a deviation of ca. 900 mm near the low water line. A robust calibration procedure was developed to correct the deviations of the Z-axis. In this paper, we start by presenting the first results achieved with the current methodology. Next, we analyze the results from a 10-day measurement campaign and highlight the tide-dominated beach morphology.

Published

2020

10. R AND PYTHON BENCHMARKING FOR GEOGRAPHICAL APPLICATIONS.

Author

Verbeurgt, Jeffrey, Stal, Cornelis, Sloover, Lars De, Deruyter, Greet, and Wulf, Alain De

Subjects

*PYTHON programming language, *COORDINATES, *PROGRAMMING languages, *DIGITAL elevation models, *REMOTE-sensing images

Abstract

Two commonly used programming languages in geosciences are R and Python. Both languages come with inherent advantages and disadvantages. While Python is a generalpurpose language with a readable syntax, R is built by statisticians and encompasses their specific language. In contrast with more nominative and static programming languages, like C++ or Java, both R and Python are heavily used in non-informatics disciplines, due to their relative ease of use. Notwithstanding the lower performance of both languages compared to the aforementioned languages, they allow fast prototyping and implementation of algorithms in research contexts. However, depending on the aim of the research, (geo-)scientists will frequently decide between using Python, favoring replicability and accessibility, or R, containing fast-programmable cutting-edge reporting tools. One of the main differences between both languages is that, for Python, with five libraries one can complete most research (Numpy, Pandas, Scipy, Scikit-learn, and Matplotlib), while for R, one should find the right package in the +12.000 available packages on CRAN. The availability of the many packages for R is at the same time one of its greatest strengths. In this research, three common analyses in geosciences are performed in both R and Python. The first analysis highlights the unsupervised classification of (Sentinel-2) satellite imagery. The second series of analysis concerns the transformation of planimetric coordinates from one coordinate reference system to another system. As a final analysis, a series of standard topographic parameters are derived for an equidistant digital elevation model extracted from ASTER- and SRTM- data (EU-DEM). Next to the quantitative benchmarking of the processing time for each analysis, the output of each calculation is investigated as a qualitative benchmark, with a focus on the comprehensibility of the numerical/character output and the visualizations. [ABSTRACT FROM AUTHOR]

Published

2020

11. USING NATIONAL DIGITAL ELEVATION MODELS FOR CROSSBOUNDARY APPLICATIONS: A QUALITY ASSESSMENT.

Author

Stal, Cornelis, Verbeurgt, Jeffrey, De Sloover, Lars, Deruyter, Greet, and De Wulf, Alain

Subjects

*DIGITAL elevation models, *ELECTRON tube grids, *COORDINATE transformations, *GEOGRAPHIC spatial analysis, *COORDINATES, *STANDARDS, *SPACE-based radar

Abstract

Digital elevation models play a crucial role in the analysis of complex spatial challenges. Given the international dimension of many environmental applications, elevation data have been integrated in the European INSPIRE directive (Annex II, Elevation theme). As a result, many types of data are offered in various formats by mapping agencies and governmental organizations within the European Union. Notwithstanding the national effort to publish these data under open and public licenses, and in compliance with international data standards, the models are often projected in national coordinate reference systems, containing local orthometric heights. In order to use these models for cross-boundary applications, a transformation of locally projected coordinates and local elevations to international coordinates and ellipsoidal heights is required. Planimetric coordinate transformations are regularly performed using analytical conversion models, whereas altimetric transformations make use of geoidal models or simple vertical shifts. In this paper, digital elevation models from the Netherlands and the Flemish Region (Belgium) are transformed using the corresponding geoidal transformation grids and a simple vertical shift. Both data sets are independently acquired and processed within the framework of governmental mapping campaigns. The projected Dutch RD coordinates (EPSG:28992) and Belgian Lambert ’72 coordinates (EPGS:31370) are converted to ellipsoidal WGS84 coordinates (EPGS:4326) using open-source OGR tools. In order to obtain ellipsoidal heights from the elevation models, NLGEO08 and hBG18 are used for the conversion of Dutch and Belgian elevations respectively. Based on a quality assessment of both data sets in overlapping areas, it is stated that the mean difference and standard deviation of the elevations are within the accuracy levels of the used elevation models (0.07 ± 0.16 m). [ABSTRACT FROM AUTHOR]

Published

2019

12. CASE STUDY OF A HYPERTEMPORAL TERRESTRIAL LIDAR TO MONITOR A MACROTIDAL BEACH: ASSESSMENT OF DIFFERENT CALIBRATION PROCEDURES.

Author

De Sloover, Lars, De Wulf, Alain, Stal, Cornelis, Verbeurgt, Jeffrey, and Vos, Sander

Subjects

LIDAR, OPTICAL scanners, BEACHES, SEDIMENT analysis, CALIBRATION, TIMESTAMPS, INDEPENDENT sets

Abstract

In order to protect the Belgian coast, knowledge on natural sand dynamics is essential. Monitoring sand dynamics is commonly done through sediment budget analysis, which relies on determining the volumes of sediment added or removed from the coastal system. These volumetrics require precise and accurate 3D data of the terrain on different time stamps. Earlier research states the potential of permanent long-range terrestrial laser scanning for continuous monitoring of coastal dynamics. For this paper, this methodology has been implemented at an ultradissipative macrotidal North Sea beach in Mariakerke (Ostend, Belgium). A Riegl VZ-2000 LiDAR, mounted on a 42 m high building, scanned the intertidal and dry beach in a test zone of ca. 200 m wide on an hourly basis over a time period of one year. It appeared that the laser scanner cannot be assumed to have a fixed zenith for each hourly scan. The scanner compensator measured a variable deviation of the Z-axis of more than 3.00 mrad. This results in a deviation of ca. 900 mm near the low water line. A robust calibration procedure was developed to correct the deviations of the Z-axis. ‘Robust’ meaning (1) independent of a truth set of reference points (2) independent of the model and (3) independent of outlier elimination strategy. Several strategies for calibration of the vertical axis of the scanner have been tested and compared. A TIN model of the terrestrial scan – calibrated on an airborne LiDAR truth of the unchanging seawall and groin – combined with iterative statistical outlier elimination (mean ± 2.5 × standard deviation) resulted in the best outcome. [ABSTRACT FROM AUTHOR]

Published

2019

13. The gravity database for Belgium.

Author

Verbeurgt, Jeffrey, Van Camp, Michel, Stal, Cornelis, Camelbeeck, Thierry, De Sloover, Lars, Poppe, Hans, Declercq, Pierre‐Yves, Voet, Pierre, Constales, Denis, Troch, Peter, De Maeyer, Philippe, and De Wulf, Alain

Subjects

*GRAVIMETRY, *GRAVITY, *GROUNDWATER, *METADATA, *GOVERNMENT agencies

Abstract

Data and metadata products based on intensive terrestrial gravity measurements covering the Belgian territory have been established compliant to the new ISO19115‐1 profile for gravity‐related data. A short historical introduction on gravity measurements on the Belgian territory is presented, starting with the first gravity measurement in 1892. This paper focuses on gravity data acquired after 1971, which marks the adoption of IGSN71 as a reference for the world network by the International Association of Geodesy (IAG). Next to a complete dataset containing all Belgian gravity data, the available gravity data were reduced to the corresponding measurement campaign, enabling determination of specific metadata (e.g. used gravimeter, tide system parameters, time of acquisition, etc.). New gravity and spirit levelling measurements were executed by the Royal Observatory Belgium and the National Geographic Institute (Federal Mapping Agency) to validate the g‐value at the historical reference base station 'Carte du Ciel' in Brussels. Taking into account the instrumental errors and the varying ground water content, the retrieved data are validated and approved for use in further research. [ABSTRACT FROM AUTHOR]

Published

2019

14. ROMS Based Hydrodynamic Modelling Focusing on the Belgian Part of the Southern North Sea.

Author

Klonaris, Georgios, Van Eeden, Frans, Verbeurgt, Jeffrey, Troch, Peter, Constales, Denis, Poppe, Hans, and De Wulf, Alain

Subjects

WATER levels, CONTINENTAL shelf, COASTS, WATER temperature, WORK values

Abstract

The North Sea is a shallow sea that forms a complex physical system. The nonlinear interaction of the astronomical tides, varying wind fields and varying pressure systems requires appropriate approaches to be described accurately. An application based on the advanced numerical model Regional Ocean Modeling System (ROMS) was newly developed by the authors, tailored to simulate these hydrodynamic processes in the North Sea and the Belgian Continental Shelf, which is the area of particular interest in the present study. The purpose of this work is to develop and validate a state-of-the-art three-dimensional numerical model to form the basis of a compound operational and forecasting tool for the Belgian coastal zone. The model was validated with respect to water levels and temperature. Validation for astronomical tides was accomplished through the comparison of the principal constituents between the model results and observations at a number of tidal gauges in Belgium and other countries. A statistical analysis of the results showed that the model behaves as expected throughout the North Sea. The model response to the varying meteorological conditions was also validated using hindcast data for 2011 as input. In this case, the comparison between observed and modelled water levels showed a good agreement with average RMSE in Belgium 9.5 cm. Overall, the added value of this work is the development of an independent model for validation and comparison with other models and which can be used as an efficient tool for operational and forecasting purposes. [ABSTRACT FROM AUTHOR]

Published

2021

15. Measuring Surface Moisture on a Sandy Beach based on Corrected Intensity Data of a Mobile Terrestrial LiDAR.

Author

Jin, Junling, De Sloover, Lars, Verbeurgt, Jeffrey, Stal, Cornelis, Deruyter, Greet, Montreuil, Anne-Lise, De Maeyer, Philippe, and De Wulf, Alain

Subjects

LIDAR, MOISTURE, OPTICAL scanners, BEACHES

Abstract

Surface moisture plays a key role in limiting the aeolian transport on sandy beaches. However, the existing measurement techniques cannot adequately characterize the spatial and temporal distribution of the beach surface moisture. In this study, a mobile terrestrial LiDAR (MTL) is demonstrated as a promising method to detect the beach surface moisture using a phase-based Z&F/Leica HDS6100 laser scanner mounted on an all-terrain vehicle. Firstly, two sets of indoor calibration experiments were conducted so as to comprehensively investigate the effect of distance, incidence angle and sand moisture contents on the backscattered intensity by means of sand samples with an average grain diameter of 0.12 mm. A moisture estimation model was developed which eliminated the effects of the incidence angle and distance (it only relates to the target surface reflectance). The experimental results reveal both the distance and incidence angle influencing the backscattered intensity of the sand samples. The standard error of the moisture model amounts to 2.0% moisture, which is considerably lower than the results of the photographic method. Moreover, a field measurement was conducted using the MTL system on a sandy beach in Belgium. The accuracy and robustness of the beach surface moisture derived from the MTL data was evaluated. The results show that the MTL is a highly suitable technique to accurately and robustly measure the surface moisture variations on a sandy beach with an ultra-high spatial resolution (centimeter-level) in a short time span (12 × 200 m per minute). [ABSTRACT FROM AUTHOR]

Published

2020

16. A Review of the Internet of Floods: Near Real-Time Detection of a Flood Event and Its Impact.

Author

Van Ackere, Samuel, Verbeurgt, Jeffrey, De Sloover, Lars, Gautama, Sidharta, De Wulf, Alain, and De Maeyer, Philippe

Subjects

FLOODS, EMERGENCY management, COMPUTER networking equipment, INTERNET, INTERNET of things, FLOOD risk, CULTURAL activities

Abstract

Worldwide, flood events frequently have a dramatic impact on urban societies. Time is key during a flood event in order to evacuate vulnerable people at risk, minimize the socio-economic, ecologic and cultural impact of the event and restore a society from this hazard as quickly as possible. Therefore, detecting a flood in near real-time and assessing the risks relating to these flood events on the fly is of great importance. Therefore, there is a need to search for the optimal way to collect data in order to detect floods in real time. Internet of Things (IoT) is the ideal method to bring together data of sensing equipment or identifying tools with networking and processing capabilities, allow them to communicate with one another and with other devices and services over the Internet to accomplish the detection of floods in near real-time. The main objective of this paper is to report on the current state of research on the IoT in the domain of flood detection. Current trends in IoT are identified, and academic literature is examined. The integration of IoT would greatly enhance disaster management and, therefore, will be of greater importance into the future. [ABSTRACT FROM AUTHOR]

Published

2019