LiDAR's main performance parameters include wavelength, detection range, frequency, field of view (FOV), angular resolution, data rate, number of beams, etc.. Understanding these key parameters is essential for grasping its capabilities fully.
Heading angle, roll angle, and pitch angle are integral components of airborne LiDAR operations, influencing the quality, accuracy, and usability of the collected data.
One crucial aspect of LiDAR data is its accuracy, which directly impacts the reliability and usefulness of the derived information. Let's delve into what contributes to the accuracy of LiDAR point clouds.
Unmanned Aerial Vehicles (UAVs), commonly known as drones, have revolutionized the field of aerial surveying due to their flexibility, cost-effectiveness, and ease of deployment. However, ensuring the accuracy of data collected through UAV aerial surveyin
The unmanned aerial vehicle (UAV) aerial surveying system has been widely used in various industries due to its advantages such as flexibility, convenience, high efficiency, speed, and low cost. The following will detail the main steps and specific detail
As robotics technology continues to advance, both 2D and 3D SLAM systems will play critical roles in enabling machines to perceive, navigate, and interact with the world around them with ever-increasing autonomy and intelligence.
Position Orientation System (POS) in LiDAR surveying plays a pivotal role in ensuring the accuracy and efficiency of capturing three-dimensional spatial data.
Within the realm of LiDAR systems, two primary technologies stand out: Single-beam LiDAR and Multi-beam LiDAR. In this blog, we'll delve into the differences between these two technologies and explore their unique applications.
A GNSS receiver is a device used to receive, track, process, and measure signals from Global Navigation Satellite Systems (GNSS). It can receive signals from different satellites, and by processing and analyzing these signals, calculate the receiver's po
