DrOne sensors and immeRsive tEchNologies towards the Thematic MApping of SpaTiotemporal PhEnomena (ORIENTATE)

Primary Data

Project title

Budget

39.970,00€

Project Coordinator

Papakonstantinou, Apostolos

Status

Ongoing project

Start date

01-01-2024

Expected Completion

31-12-2026

Funder

Cyprus University of Technology

This project, titled "DrOne sensors and immeRsive tEchNologies towards the Thematic MApping of SpaTiotemporal PhEnomena" (ORIENTATE), aims to leverage advancements in UAV (Unmanned Aerial Vehicles) technology combined with Virtual Reality (VR) and Augmented Reality (AR) for enhanced mapping and monitoring of spatiotemporal phenomena. ORIENTATE focuses on the precision and capabilities of modern UAV sensors, including high-resolution cameras and LiDAR systems, to collect detailed spatiotemporal data. Integrating VR and AR technologies, the project seeks to transform data interpretation and decision-making by creating immersive 3D visualizations. The methodology involves UAV data acquisition, preprocessing, and integration into VR/AR platforms to facilitate interactive and intuitive exploration of environmental changes. The goal is to improve user interaction with 3D geovisualizations and enhance the understanding and management of dynamic environmental processes.
The project aims to contribute to the evolving field of UAV-based spatiotemporal mapping and offer practical insights for researchers and professionals in various domains.

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	Issue Date	Title	Author(s)
1	17-Aug-2025	3D Geovisualizations at Multiple Scales: UAV and VR Integration for Geosite Exploration	Papakonstantinou, Apostolos ; Papadopoulou, Ermioni - Eirini ; Karaelefteriou, Elefterios
2	1-Aug-2024	Combining Drone LiDAR and Virtual Reality Geovisualizations towards a Cartographic Approach to Visualize Flooding Scenarios	Papadopoulou, Ermioni - Eirini ; Papakonstantinou, Apostolos
3	12-Nov-2025	Geovisualization of flood scenarios in the Thessalian Plain using LiDAR, UAV and Virtual Reality	Papadopoulou, Ermioni - Eirini ; Papakonstantinou, Apostolos
4	16-Jun-2024	Immersive 3D geovisualizations of geosites in different scales. Combining high-resolution UAV data with a Virtual Reality environment	Papakonstantinou, Apostolos ; Papadopoulou, Ermioni - Eirini ; Karaelefteriou, Elefterios
5	17-Aug-2025	A Methodological Framework for Mapping Coastline Spatiotemporal Changes Using UAV Airborne LiDAR	Papadopoulou, Ermioni - Eirini ; Papakonstantinou, Apostolos ; Proestakis, Stavros

DrOne sensors and immeRsive tEchNologies towards the Thematic MApping of SpaTiotemporal PhEnomena (ORIENTATE)

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