Aeromedia U.A.V., S.L., a number one Spanish firm specializing in aerial survey applied sciences, not too long ago undertook an bold mission involving a complete survey of a 10-km-long hall within the reservoir Logrosan-Caceres. The mission aimed to showcase the facility of integrating a number of survey applied sciences, together with LIDAR, high-resolution photogrammetry, and an airborne echo sounder system developed by SPH Engineering, notably for mapping terrestrial and underwater terrains.
The work aimed on the topography of a water catchment and discharge space close to the Ruecas reservoir in Cáceres. LiDAR+RGB strategies have been mixed within the terrestrial space and the ECT 400S single-beam bathymetric probe within the reservoir space. The bathymetry of about 9 hectares took sooner or later, and the LiDAR flights took one morning. Our consumer obtained a number of cartographic merchandise, corresponding to DEMs and level clouds.
The Problem
The principle expectations relating to drone-based options have been acquisition velocity and the captured knowledge’s last reliability. The first problem was conducting an in depth survey that precisely lined terrestrial and underwater areas. Conventional strategies usually require separate programs for land and underwater surveying, complicating knowledge integration and growing mission time and price. Furthermore, the necessity to survey underneath vegetation and obtain depths of as much as 100 meters underwater demanded an answer that would present distinctive precision and flexibility.
The Multisensor Resolution
Aeromedia utilized an progressive strategy to handle these challenges by integrating three applied sciences.
This multi-sensor answer enabled the staff to measure the Earth’s floor seamlessly, capturing correct data from the Digital Terrain Mannequin (TDM), even in areas lined by vegetation, and increasing to underwater environments as much as depths of 100 meters.
The primary was LIDAR (Mild Detection and Ranging) expertise to seize extremely correct 3D terrain knowledge alongside the 10-kilometer hall. LIDAR is famend for penetrating vegetation and offering detailed elevation data, making it a great selection for this mission.
The second answer was high-resolution Photogrammetry: Mixed with LIDAR, photogrammetry performed an important function in capturing detailed floor imagery. This expertise enabled the creation of exact 3D fashions and orthomosaics, permitting for a complete understanding of the realm’s topography.
Final however not least is the airborne Echo Sounder System. The underwater part of the survey was achieved with an airborne echo sounder system offered by SPH Engineering. This method may seize submerged topography as much as 100 meters, enabling the acquisition of useful knowledge from the reservoir’s depths.
Consequence
The mixing of LIDAR, high-resolution photogrammetry, and an airborne Echo Sounder System on a single RPAS platform proved to be extremely efficient, providing a number of key advantages:
Complete Information Assortment: The mixed applied sciences allowed for correct and detailed knowledge assortment throughout land and underwater terrains, offering a holistic view of the surveyed space.
Effectivity and Value-Effectiveness: The mission achieved larger effectivity and diminished operational prices by using a unified terrestrial and bathymetric surveying system.
Modern Method: The profitable implementation of this multisensor survey showcased the potential for related applied sciences to revolutionize the surveying trade, setting a precedent for future tasks.
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