Switzerland-based drone technology company, Wingtra, has recently introduced a groundbreaking LIDAR drone mapping solution that promises to revolutionize the industry. By combining their WingtraOne GEN II drones with a state-of-the-art LIDAR sensor, Wingtra aims to enhance the efficiency, ease of use, and accuracy of drone LIDAR mapping.
The innovative system has been designed to exceed customer expectations, providing high-precision, reliable, and repeatable data while simplifying the entire operational process and reducing costs. Julian Mackern, Product Manager at Wingtra, emphasizes the system’s capabilities and its commitment to delivering exceptional results for users.
At the core of the Wingtra LIDAR solution lies a Hesai scanner, Inertial Labs IMU, and NovAtel GNSS, which work in perfect harmony to optimize data acquisition and minimize the need for post-processing strip alignment. This integration allows users immediate access to precise terrain information after each flight, greatly enhancing mapping and photogrammetric analysis efficiency across various industries.
In extensive testing, Carlos Femmer, Director of Data Acquisition at HDR, reported outstanding results from using Wingtra’s LIDAR payload. The system demonstrated its ability to produce high-quality data on both vegetated and non-vegetated surfaces while minimizing noise levels compared to other sensors in the same price range.
A standout feature of the Wingtra LIDAR system is its remarkable efficiency in the field. With no calibration required and a quick one-minute initialization process, users can swiftly start their data capture operations. The intuitive Wingtra LIDAR app, combined with the system’s automated features, further simplifies the process, making it accessible even to those new to LIDAR technology.
With a vertical accuracy of 3 cm (1.2 inches) from a 60 m (200 ft) flight height and leading point density in its class, the WingtraOne GEN II’s design and automated flight patterns guarantee consistent and reliable results across different operators. This addresses a common challenge in LIDAR data capture, ensuring accuracy and consistency no matter the pilot’s skill level.
In conclusion, Wingtra’s latest LIDAR drone mapping solution sets a new standard in the industry. By merging cutting-edge technology with unparalleled user-friendliness, the system opens up endless possibilities for various sectors, from construction and agriculture to environmental research and beyond. Expectations are high, and Wingtra is determined to deliver on every front.
An FAQ Section based on the main topics and information presented in the article:
Q: What is Wingtra’s new drone mapping solution?
A: Wingtra has developed a LIDAR drone mapping solution that combines their WingtraOne GEN II drones with a state-of-the-art LIDAR sensor, aiming to enhance efficiency, ease of use, and accuracy in LIDAR mapping.
Q: What are the key features of Wingtra’s LIDAR solution?
A: The Wingtra LIDAR solution incorporates a Hesai scanner, Inertial Labs IMU, and NovAtel GNSS, which work together to optimize data acquisition and minimize the need for post-processing strip alignment. It offers high-precision, reliable, and repeatable data with fast access to terrain information after each flight.
Q: How does Wingtra’s LIDAR system perform in testing?
A: According to Carlos Femmer, Director of Data Acquisition at HDR, Wingtra’s LIDAR system showed outstanding results by producing high-quality data and minimizing noise levels compared to other sensors in the same price range. It performed well on both vegetated and non-vegetated surfaces.
Q: What are the advantages of Wingtra’s LIDAR system in the field?
A: Wingtra’s LIDAR system is highly efficient, with no calibration required and a quick one-minute initialization process. The intuitive Wingtra LIDAR app and automated features simplify the process, making it accessible even for those new to LIDAR technology.
Q: What is the accuracy and consistency of WingtraOne GEN II drones?
A: The WingtraOne GEN II drones offer a vertical accuracy of 3 cm (1.2 inches) from a 60 m (200 ft) flight height and leading point density in their class. This ensures consistent and reliable results across different operators, addressing the challenge of maintaining accuracy regardless of pilot skill level.
Key Terms and Definitions:
LIDAR: LIDAR is a method of surveying or mapping an area using laser beams to measure distances and create highly accurate and detailed 3D models of the environment.
GNSS: GNSS stands for Global Navigation Satellite System, which refers to a network of satellites that provide signals used for navigation and positioning purposes.
Inertial Labs IMU: IMU stands for Inertial Measurement Unit, which is a device that measures and reports motion, orientation, and velocity of an object using a combination of accelerometers, gyroscopes, and magnetometers.
Terrain information: Terrain information refers to data or characteristics related to the physical features and topography of the land surface.
Photogrammetric analysis: Photogrammetric analysis is the process of extracting precise measurements and other information from photographs or images to create accurate maps, models, or 3D representations of real-world objects.