In this paper, the researchers built a three-dimensional air pollution monitoring system based on a multi-rotor UAV platform, and did research on the system integration technology. (1) Anti-outflow Field interference measures. We used adjustable speed ducted fans to stabilize the airflow, and set the airway to further improve the intake stability and reduce the interference of the flow field around the drone to the measurement equipment. Optimizing the installation location of the equipment according to the CFD simulation results; (2) Anti-electromagnetic interference treatment. By wrapping the electromagnetic shielding cloth (silver fiber fabric) on the measurement module, the electromagnetic interference generated by the UAV’s own device on the sensor module is reduced; (3) Data preprocessing. Before the regional measurement, an airborne control test was carried out, and the data collected by the airborne equipment was corrected using data processing methods. The equipment was equipped with an Internet of Things module and a GPS positioning module, so that the measurement data could be transmitted to the background for analysis in real time. (4) Based on the uniform experimental design method, the UAV inspection points are arranged, and the measurement path of the measurement system is optimized. And carried out on-site measurements in Xi’an, China.
Research on Integration Technology of Stereoscopic Environment Monitoring System Based on UAV
Lect. Notes Electrical Eng.
International Conference on Aerospace System Science and Engineering ; 2020 ; Shanghai, China July 14, 2020 - July 16, 2020
Proceedings of the International Conference on Aerospace System Science and Engineering 2020 ; Kapitel : 34 ; 473-483
2021-06-02
11 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Research on Integration Technology of Stereoscopic Environment Monitoring System Based on UAV
British Library Conference Proceedings | 2021
|Novel 3D stereoscopic imaging technology
SPIE | 1994
|LCD-based stereoscopic imaging system
SPIE | 2006
|Enabling stereoscopic 3D technology [6490A-32]
British Library Conference Proceedings | 2007
|