A A+ A++
photo
Autor: Krzysztof Tomiczek Publikacja: 27.06.2026 Aktualizacja: 27.06.2026

POB6 News. A student PBL project at the intersection of geoengineering, the natural environment, natural disaster prevention, and satellite and geographic analysis.

As part of the Silesian University of Technology – Excellence Initiative, the 14th edition of PBL projects has been completed. On Friday, June 26 of this year, as part of the acceptance and evaluation process conducted by the Vice-Rector’s Committee, the results of an international PBL project were presented, titled: “3D and VR Visualization of Natural Disaster Maps, with Particular Focus on Floods and Landslides. Comprehensive Version.”

The project was carried out by students from the Silesian University of Technology and Universiti Utara Malaysia. The project team consisted of: Natalia Zaręba and Oliwia Szweda (Surveying and Cartography, Faculty of Mining, Safety Engineering, and Industrial Automation), Piotr Grodzicki (Chemical Technology, Faculty of Chemistry), Aleksandra Rocznik (Engineering Technologies in Forensic Science, Faculty of Biomedical Engineering), Mohd Rahimi Abdul Karim, Zairil Anuar Zulmuji, Putri Safira Bianca Putri (Master of Science in Geoinformatics for Disaster Risk Reduction, School of Computing, Universiti Utara Malaysia).

The head supervisor of the project was PhD Eng Krzysztof Tomiczek, Assist. Prof. at SUT (RG4); the academic supervisors were: PhD Nur Suhaili Mansor, Dep. Direct. at UUM, DSc Aneta Grodzicka, Prof. at SUT (RG4), and PhD Monika Żogała, Assist. Prof. at SUT (RG4).

This is yet another successful project carried out in collaboration with a highly ranked Asian university (UUM – QR: 540 in the World University Ranking).

The project involved the use of satellite maps of flood and landslide hazards, developed using programming and remote sensing tools, and their subsequent transformation into 3D models overlaid on digital elevation models. Particular emphasis was placed on maintaining scientific consistency between the analytical layer and the visualization layer.

The project’s objective was achieved: a clear, proprietary methodological workflow was designed and tested, encompassing the following stages: scanning and analysis of satellite maps, programming processing, generation of hazard maps, their elaboration, conversion to 3D models, and final visualization, including the ability to visualize “hazard” forecasts. This proprietary workflow is repeatable, transparent, and applicable across various research areas. The 3D visualization provides a realistic representation of the scientific results of spatial analyses and enables the clear presentation of these results to audiences who are not specialists in geotechnical engineering, environmental engineering, DRR, or GIS.

Udostępnij:fbtwitter

Aktualności

Pokaż wszystkie
photo

Przestrzeganie obowiązkowych zasad podczas epidemii

Tomasz Haptas
2021-02-04 00:54:34
2021-03-02 13:05:30
04.02.2021
photo

Narodowy program publikacji naukowych Springer 2020

Tomasz Haptas
2020-08-13 07:48:00
2023-07-14 09:42:19
13.08.2020
photo

Targi KOMPOZYT-EXPO w Krakowie

Wideo może być bardzo pomocne w przedstawieniu swojego punktu widzenia.

Tomasz Haptas
2020-08-13 07:46:51
2021-02-04 00:49:58
13.08.2020

Więcej aktualności

Wydarzenia

Pokaż wszystkie
Eureca-Pro logo

© Politechnika Śląska

Polityka prywatności

Całkowitą odpowiedzialność za poprawność, aktualność i zgodność z przepisami prawa materiałów publikowanych za pośrednictwem serwisu internetowego Politechniki Śląskiej ponoszą ich autorzy - jednostki organizacyjne, w których materiały informacyjne wytworzono. Prowadzenie: Centrum Informatyczne Politechniki Śląskiej (www@polsl.pl)

Deklaracja dostępności

„E-Politechnika Śląska - utworzenie platformy elektronicznych usług publicznych Politechniki Śląskiej”

Fundusze Europejskie
Fundusze Europejskie
Fundusze Europejskie
Fundusze Europejskie