Overlaps between scans and the height of the scanned objects

During the flight, TOPODRONE LiDAR scans an area of the surface of a certain width, which is called a "scan". The width of the scan is determined by the technical characteristics of the sensor, the operating altitude of the flight, as well as the difference in terrain. 

 For correct postprocessing of the data obtained from TOPODRONE LiDAR, it is necessary that neighboring scans have a common overlap. It is recommended to provide at least 30% lateral overlap to adjacent scans. Insufficient overlap between scans, especially in combination with significant relief differences, can lead to the formation of an area without data, which significantly reduces the quality of output materials. 

 On the other hand, a higher overlap value allows the most accurate calculation of the calibration angles of Roll, Pitch and Heading. When choosing a specific overlap value, it is necessary to take into account such parameters as the maximum length of the laser beam, the scanning angle (106 degrees for ALS) and the height of the scanned object. 

 To achieve optimal results when performing ALS using TOPODRONE LiDAR , it is recommended to set the following parameters when building a mission : 

 

 

 

 

 

 1 

 

 

 2 

 

 

 3 

 

 

 4 

 

 

 5 

 

 

 

 

 LiDAR model, 

 maximum beam length 

 

 

 Working height , m 

 

 

 Scan width , m 

 

 

 Distance between scan centers: % overlap 

 

 

 Maximum height of the scanned object: % overlap 

 

 

 

 

 30% 

 

 

 40% 

 

 

 50% 

 

 

 60% 

 

 

 30% 

 

 

 40% 

 

 

 50% 

 

 

 60% 

 

 

 

 

 TOPODRONE LiDAR 100+ и 100 

 120 m 

 

 

 50 

 

 

 134 

 

 

 94 

 

 

 81 

 

 

 67 

 

 

 54 

 

 

 15 

 

 

 20 

 

 

 25 

 

 

 30 

 

 

 

 

 60 

 

 

 160 

 

 

 112 

 

 

 96 

 

 

 80 

 

 

 64 

 

 

 18 

 

 

 24 

 

 

 30 

 

 

 36 

 

 

 

 

 70 * 

 

 

 187 

 

 

 131 

 

 

 113 

 

 

 94 

 

 

 75 

 

 

 21 

 

 

 28 

 

 

 35 

 

 

 42 

 

 

 

 

 80 ** 

 

 

 1 36 

 

 

 96 

 

 

 82 

 

 

 68 

 

 

 55 

 

 

 24 

 

 

 32 

 

 

 41 

 

 

 49 

 

 

 

 

 TOPODRONE LiDAR 200+ 

 300 m 

   

 

 

 90 

 

 

 240 

 

 

 168 

 

 

 144 

 

 

 120 

 

 

 96 

 

 

 27 

 

 

 36 

 

 

 45 

 

 

 54 

 

 

 

 

 100 

 

 

 267 

 

 

 187 

 

 

 161 

 

 

 134 

 

 

 107 

 

 

 30 

 

 

 40 

 

 

 50 

 

 

 60 

 

 

 

 

 110 

 

 

 292 

 

 

 205 

 

 

 176 

 

 

 146 

 

 

 117 

 

 

 33 

 

 

 44 

 

 

 55 

 

 

 66 

 

 

 

 

 120* 

 

 

 240 

 

 

 168 

 

 

 144 

 

 

 120 

 

 

 96 

 

 

 36 

 

 

 48 

 

 

 60 

 

 

 72 

 

 

 

 

 130* 

 

 

 260 

 

 

 182 

 

 

 156 

 

 

 130 

 

 

 104 

 

 

 39 

 

 

 52 

 

 

 65 

 

 

 78 

 

 

 

 

 140** 

 

 

 235 

 

 

 165 

 

 

 1 41 

 

 

 1 18 

 

 

 94 

 

 

 42 

 

 

 56 

 

 

 70 

 

 

 84 

 

 

 

 

 150** 

 

 

 250 

 

 

 177 

 

 

 1 52 

 

 

 1 26 

 

 

 1 01 

 

 

 45 

 

 

 60 

 

 

 7 5 

 

 

 9 0 

 

 

 

 

 

 Table 1. Dependence of the distance between the scan centers on the overlap and the working height. 

 * The specifications are given for a scanning angle of 90 degrees. 

 ** The specifications are given for a scanning angle of 80 degrees. With such characteristics, there is a significant decrease in the density of points. 

 

 The density of the resulting point cloud depends on factors such as flight speed, altitude, and surface reflectivity. As nominal initial values, it is recommended to conduct flights at a drone flight speed of 6 m/s at an operating altitude of 60 m for TOPODRONE LiDAR 100, 100+ and 100 m for TOPODRONE LiDAR 200+ with 40% overlap. 

 Further changes to these parameters must be made taking into account the features of the terrain, weather conditions and the maximum height of the scanned objects.