The aim of this project is to leverage advancements in drone technology to conduct research and address critical challenges. Specifically, we focus on two primary objectives:
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Detection and Mapping of Earthquake-Induced Fissures and Landslides: Utilizing drones equipped with high-resolution cameras for autonomously detecting and mapping fissures and landslides resulting from earthquakes. This is crucial for disaster response and risk assessment.
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3D Modeling of Buildings' Exteriors: Employing drones to perform detailed 3D scans of buildings' exteriors. This facilitates accurate modeling for various applications, including construction planning and analysis.
These objectives showcase the potential of drone technology to enhance safety, disaster management, and urban development through precise data collection and analysis.
To achieve this objective, we employed the following approach:
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Autonomous Drone Scanning: Utilize drones equipped with high-resolution cameras to autonomously scan earthquake-affected areas, focusing on potential fissures and landslides.
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Photographic Documentation: Capture multiple high-quality images of the area, enabling comprehensive documentation and analysis of fissures and landslide patterns.
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Photogrammetry Techniques: Utilize photogrammetry methods to reconstruct 3D models of the terrain, enabling accurate mapping of fissures and landslides for further analysis.
To accomplish this goal, we proposed the following approach:
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Comprehensive Building Scans: Utilize drones for detailed scans of buildings' facades.
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Photogrammetry for Building Modeling: Apply photogrammetry techniques to create precise 3D and orthometric models of the buildings using the images captured during the drone scans.
These approaches utilize the capabilities of drone technology, combined with advanced image processing and 3D modeling techniques, to achieve our project aims efficiently and accurately.
To fulfill this requirement, we utilized the following approach:
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Designing a user-friendly desktop application: The user should be able to register the drones and batteries available at their disposal and select the terrain to be scanned and modeled. In addition, they will be entitled to greater freedom in calibrating the mission parameters such as the shooting angle. Finally, they will be able to monitor the progress of the ongoing missions and be informed regarding any mishap.
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Photogrammetry for Building Modeling: Apply photogrammetry techniques to create precise 3D models of the buildings using the images captured during the drone scans.
These approaches utilize the capabilities of drone technology, combined with advanced image processing and 3D modeling techniques, to achieve our project aims efficiently and accurately.