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Fran Domazetović, PhD
Fran Domazetović, PhD
Department of Geography, University of Zadar
在 unizd.hr 的电子邮件经过验证
标题
引用次数
引用次数
年份
Development of automated multicriteria GIS analysis of gully erosion susceptibility
F Domazetović, A Šiljeg, N Lončar, I Marić
Applied geography 112, 102083, 2019
432019
Comparative assessment of pixel and object-based approaches for mapping of olive tree crowns based on UAV multispectral imagery
A Šiljeg, L Panđa, F Domazetović, I Marić, M Gašparović, M Borisov, ...
Remote sensing 14 (3), 757, 2022
322022
A multiscale framework for sustainable management of tufa-forming watercourses: a case study of National Park “Krka”, Croatia
A Šiljeg, I Marić, N Cukrov, F Domazetović, V Roland
Water 12 (11), 3096, 2020
232020
Automated coastline extraction using the very high resolution worldview (WV) satellite imagery and developed coastline extraction tool (CET)
F Domazetović, A Šiljeg, I Marić, J Faričić, E Vassilakis, L Panđa
Applied Sciences 11 (20), 9482, 2021
212021
Geoprostorne tehnologije u 3D dokumentaciji i promociji kulturne baštine–primjer utvrde Fortica na otoku Pagu
I Marić, A Šiljeg, F Domazetović
Geodetski glasnik 50, 19-44, 2019
192019
GIS automated multicriteria analysis (GAMA) method for susceptibility modelling
F Domazetović, A Šiljeg, N Lončar, I Marić
MethodsX 6, 2553-2561, 2019
192019
Bathymetric survey of the St. Anthony channel (Croatia) using multibeam echosounders (MBES)—a new methodological semi-automatic approach of point cloud post-processing
A Šiljeg, I Marić, F Domazetović, N Cukrov, M Lovrić, L Panđa
Journal of marine science and engineering 10 (1), 101, 2022
162022
New method for automated quantification of vertical spatio-temporal changes within gully cross-sections based on very-high-resolution models
A Šiljeg, F Domazetović, I Marić, N Lončar, L Panđa
Remote sensing 13 (2), 321, 2021
162021
How fast does tufa grow? Very high‐resolution measurement of the tufa growth rate on artificial substrates by the development of a contactless image‐based modelling device
I Marić, A Šiljeg, N Cukrov, V Roland, F Domazetović
Earth surface processes and landforms 45 (10), 2331-2349, 2020
132020
Assessing the Vertical Accuracy of Worldview-3 Stereo-extracted Digital Surface Model over Olive Groves.
F Domazetovic, A Siljeg, I Maric, M Jurisic
GISTAM 246, 253, 2020
112020
GEOBIA and vegetation indices in extracting olive tree canopies based on very high-resolution UAV multispectral imagery
A Šiljeg, R Marinović, F Domazetović, M Jurišić, I Marić, L Panđa, ...
Applied Sciences 13 (2), 739, 2023
102023
A new systematic framework for optimization of multi-temporal terrestrial LiDAR surveys over complex gully morphology
F Domazetović, A Šiljeg, I Marić, L Panđa
Remote sensing 14 (14), 3366, 2022
72022
An independent validation of SoilGrids accuracy for soil texture components in Croatia
D Radočaj, M Jurišić, I Rapčan, F Domazetović, R Milošević, I Plaščak
Land 12 (5), 1034, 2023
52023
Usporedba GEOBIA klasifikacijskih algoritama na temelju Worldview-3 snimaka u izdvajanju šuma primorskih četinjača
L Panđa, A Šiljeg, I Marić, F Domazetović, S Šiljeg, R Milošević
Šumarski list 145 (11-12), 535-544, 2021
42021
Višerezolucijsko modeliranje erozije tla korištenjem geoprostornih tehnologija
F Domazetović
University of Zadar, 2021
42021
Derivation of Wildfire Ignition Index using GIS-MCDA from High-Resolution UAV Imagery Data and Perception Analysis in Settlement Sali, Dugi Otok Island (Croatia).
I Maric, A Siljeg, F Domazetovic
GISTAM, 90-97, 2021
42021
Kvantitativna analiza utjecaja porasta razine Jadranskog mora na hrvatsku obalu: GIS pristup
F Domazetović, N Lončar, A Šiljeg
NAŠE MORE: znanstveno-stručni časopis za more i pomorstvo 64 (2 Supplement …, 2017
42017
Characteristics of the technical equipment of the city of Zadar
S Šiljeg, F Domazetović, A Pejdo
Geoadria 21 (2), 237-254, 2016
4*2016
Precision Assessment of Artec Space Spider 3D Handheld Scanner for Quantifying Tufa Formation Dynamics on Small Limestone Plates (PLs).
I Maric, A Siljeg, F Domazetovic
GISTAM, 67-74, 2022
32022
A framework for using handheld 3D surface scanners in quantifying the volumetric tufa growth
I Marić, A Šiljeg, F Domazetović, N Cukrov
GEOMORPHOMETRY 2020, 22-26, 2020
32020
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