Surveying and Mapping

Significantly reducing manual surveying costs, providing fundamental geographical spatial data for various industries, and enabling flexible generation of real-world 3D models, laser point clouds, and other outcomes

Application Scenarios

Terrain Mapping

Unmanned helicopters equipped with high-resolution cameras and LiDAR sensors, coupled with strong endurance capabilities, can rapidly and accurately gather extensive terrain data, capturing surface details and natural topographical features.
In terrain mapping, drones can navigate complex terrains, including rugged mountainous areas and regions inaccessible by ground, acquiring data that traditional surveying methods struggle to cover. With fast data collection capabilities, they can complete large-scale terrain mapping tasks in a relatively short time, enhancing surveying efficiency while maintaining high accuracy and resolution. This effectively meets the demands for high-precision maps and engineering planning.

Emergency Mapping

Unmanned helicopters provide efficient and real-time data acquisition and monitoring capabilities during disasters and emergencies.
In times of disasters, thanks to their adaptability in complex environments, unmanned helicopters can be rapidly deployed for disaster prevention and relief efforts. They use aerial imagery and LiDAR technology to obtain real-time data from affected areas, providing rescue teams with information about safe passages and refuge points. This assists in creating temporary maps of disaster areas and supports decision-makers in formulating emergency rescue and resource allocation plans.
After a disaster, UAVs can assess the damage to roads, bridges, and buildings, offering essential data support for damage assessment and post-disaster reconstruction planning.

Mining Site Monitoring

Open-pit mining areas often feature vast and complex terrains. By equipping drones with high-resolution cameras and sensors, they can conduct aerial surveys over mining sites, capturing extensive images and videos in real-time. Additionally, the outstanding flight performance of unmanned helicopters makes them particularly suitable for spiral flights. This data helps mining site managers gain comprehensive insights into operational conditions, monitoring production activities, and equipment status within the mining area.
During the mining process, UAVs can measure blast effects and excavation progress, ensuring safe and efficient mining operations. Furthermore, UAVs can monitor traffic conditions within the mining area, promptly identifying traffic accidents and hazardous behaviors.

Advantages of Drones

Long Endurance and Efficient Data Collection

A single flight provides a 90-120 minute endurance capacity, reducing takeoff, landing, and battery replacement frequencies, resulting in overall higher operational efficiency.

Strong Environmental Adaptability

Capable of operating in wind conditions of up to 6-7 levels, capable of taking off at altitudes above 5000 meters, and exhibiting excellent maneuverability to effectively address surveying scenarios with significant elevation changes.

Easy and User-Friendly Operation

One-key takeoff and landing, one-key task deployment for automatic execution, and straightforward operation comparable to conventional multi-rotor drones.

Versatile Payload Compatibility

Unmanned helicopters can carry LiDAR, oblique cameras, and hyperspectral cameras, providing diverse solutions for various surveying needs, ensuring high-quality field operations.

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