Airborne LiDAR
Offering you speed and flexibility with Tasmanian owned provider of Airborne LiDAR technology.
Airborne LiDAR a survey method for everything from wide-area mapping to corridor surveys. Offering you speed and flexibility across large areas such as cities, forests and farmlands, or long corridors such as power lines, railways, roads and rivers.
Airborne Lidar Solutions
Airborne LiDAR (Light Detection and Ranging) technology can offer your business several advantages across a range of industries, from mapping to environmental monitoring.
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Benefits of airborne LiDAR solutions are:
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1. High Accuracy
Airborne LiDAR captures precise elevation data and surface details, achieving centimetre to sub-metre accuracy. This makes it ideal for applications like topographic mapping, flood mapping, urban planning, and engineering projects.
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2. Fast Data Acquisition
LiDAR systems can rapidly scan large areas, collecting millions of data points in a fraction of the time compared to traditional survey methods. This efficiency is critical for projects with tight deadlines or covering extensive regions.
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3. Dense Point Cloud Data
The technology produces high-density point clouds, providing detailed 3D representations of landscapes, buildings, vegetation, and other features. This level of detail supports robust analysis and modelling.
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4. Penetration Through Vegetation
LiDAR's ability to penetrate tree canopies using multiple return signals allows accurate mapping of the ground beneath dense vegetation, which is invaluable for forestry management, archaeology, and hydrological studies. The airborne system we use typically out performs UAV systems.
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5. Broad Applications
Airborne LiDAR is highly versatile, supporting applications in infrastructure development, flood risk assessment, forestry, agriculture, mining, and coastal erosion monitoring.
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6. Digital Elevation and Surface Models (DEM/DSM)
LiDAR data can generate high-quality digital elevation models (DEM) and digital surface models (DSM). These are essential for urban planning, watershed modelling, and infrastructure design.
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7. Cost-Effective for Large Areas
For surveying large and remote areas, airborne LiDAR is more cost-effective compared to ground surveys, offering reduced costs and faster completion times.
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8. Integration with Other Technologies
LiDAR can seamlessly integrate with traditional survey methods, providing georeferenced 3D data. This integration enhances the accuracy and usability of spatial information.
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9. Climate and Environmental Monitoring
LiDAR systems can track environmental changes over time, such as glacier retreat, deforestation, coastal erosion, and urban expansion, supporting climate change studies and sustainable development initiatives.
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