KEYWORD |
GEOMATICA PER I BENI CULTURALI
From 3D GIS to Urban digital twin through WebGIS and 3D City models: an overview and comparison of the current real-time visualisation tools
keywords 3D CITY MODELS, DATA INTEGRATION, GIS AND SPATIAL MAPS, IOT, WEBGIS
Reference persons LUCA BARBIERATO, ELISABETTA COLUCCI, FRANCESCA MATRONE
Research Groups DIATI, geomatica, ELECTRONIC DESIGN AUTOMATION - EDA, Energy Center Lab, GEOMATICA PER I BENI CULTURALI, Geomatics Lab
Thesis type RESEARCH / EXPERIMENTAL
Description The objective of this research thesis is to analyze the state of the art of existing technologies and tools in the field of geographic information systems (GIS), WebGIS, city models, and other related domains [1-5]. The focus will be on examining how these technologies can be utilized to visualize spatial data and models in real-time, specifically those related to the energy data of buildings.
This thesis aims to provide a comprehensive overview and comparison of the current visualization tools used in transitioning from 3D GIS to urban digital twins within the discipline called Urban Energy System Modeling (UESM), and it encompasses the broader concept that includes detailed building descriptions.
In this research thesis, the student will develop knowledge on data management of 3D city models for complex UES. One of the objectives of this research thesis is thus the integration and harmonisation of 2D and 3D data, such as point clouds, Digital Elevation Models, cartographic datasets and real-time energy data.
The milestones of the thesis to reach are the following:
- Systematic Literature Review
- Case studies data collection
- Definition of KPI and parameters to be evaluated
- Selection of the free and open-source solutions (FOSS)
- Data visualization and comparison
- Evaluation of the results and KPI
[1] Lata, K., Sood, A., Kaur, K., Benipal, A.K. and Pateriya, B., 2022. Web-GIS based Dashboard for Real-Time Data Visualization & Analysis using Open Source Technologies. Journal of Geomatics, 16(2), pp.134-146.
[2] Li, B., Wu, J., Pan, M. and Huang, J., 2015. Application of 3D WebGIS and real-time technique in earthquake information publishing and visualization. Earthquake Science, 28, pp.223-231.
[3] Ciolli, M., Zatelli, P., Vitti, A. and Zottele, F., 2006. FOSS spatial DBMS and interoperability. Geomatics workbooks, 6, pp.1-9.
[4] CECCARELLI, M., Francesco, C. and Capua, M., 2006. Dynamic WEBGIS and tracking of mobile devices. FOSS4G–Free and Open Source Software for Geoinformatics. Lausanne, Switzerlan.
[5] Biljecki, F., Ledoux, H., Stoter, J., & Zlatanova, S. (2015). Applications of 3D city models: State of the art review. ISPRS International Journal of Geo-Information, 4(4), 2842-2889.
Required skills The student should have basic knowledge of GIS solutions, geospatial data retrieval and IoT data management.
Deadline 29/07/2025
PROPONI LA TUA CANDIDATURA