The drone is equipped with a remote camera and multiple gas monitoring probes, which can monitor the photos and obtain a certificate in real time, but also monitor PM2.5, PM10, sulfur dioxide, ozone and volatile organic objects over the area. Through the analysis of a large amount of data, combined with the results of the synchronous high -altitude environment camera, it can accurately check the main sources of the quality of the atmospheric environment, and control the air quality of the air monitored area in real time. The drone "on -the -job" makes up for the lack and limitations of traditional monitoring methods, greatly improves the precise and intelligent level of monitoring, provides strong technical support for precise governance and precise policy, and effectively improves the atmospheric ecological environmental protection, and effectively improves the improvement. Automation monitoring ability.
Using drone technology for river inspections, technological means to carry out riverside patrol models with open space combination, human -machine binding, and three -dimensional cross. This patrol method breaks through the single -footing method, and finds the bottleneck of insufficient problems. Drone is in the same way because of its flexible take -off and landing methods, low -altitude tracking methods, fast response to many data acquisition capabilities, and the water conservancy department is the same Waste the pollution of garbage, river plants, drainage outlets, surface pollution, riverside illegal construction, water boat houses, and piles on the bridge. Establish inspection historic image files according to key information such as time and location. When needed, you can check the historical image at any time, use artificial intelligence identification, big data analysis, cloud computing comparison of multi -phase images, for work statistics, inspection route analysis, etc. Wait for the data basis for decision -making. Provide strong support for the goal of fully covered the water shore of the river patrol river.
For a long time, the large -scale transmission line network inspection work in my country ’s power grid mainly depends on manual inspections. The timeliness, security, and accuracy of inspection results are the problems of long -term trouble in the human tour. In recent years, drones, as a high -tech inspection tool, have been rapidly promoted and applied in the power grid industry. Flying on the line by operating the drone along the line, and taking pictures or laser scans simultaneously, combined with intelligent AI data processing software, it can quickly and accurately explore the hidden danger defects in the line. With the continuous improvement of the number of drones in the country's power grid industry, the number of flying hands, and the level of skills, the era of wisdom inspections of power grid inspections has come across.
There are many mountains in my country, complex terrain, traditional forestry surveys, fire monitoring, and pest control of pests and diseases. Different from traditional forestry remote sensing monitoring methods, drone remote sensing monitoring has the characteristics of image easy acquisition, high image space and time resolution, high flexibility, good safety, easy control control, etc., which can make up for high costs for images that can make up for traditional forestry remote sensing. The problem of low repetitiveness and great affected weather is an effective supplement to forestry remote sensing technology. The combination of automatic extraction technology and manual reading technology through remote sensing images is carried out, and forest land resource surveys, forest land annual renewal, forest land acquisition verification inspection, forestry diseases and insect pest monitoring, forestry fire monitoring, etc. There are broad application prospects in forestry monitoring activities.
Modern UAV aviation testing technology has broad conditions and broad application prospects. UAV aviation surveying and mapping technology has obvious advantages in surveying and mapping. It effectively reduces the surveying and mapping costs, improves the efficiency of surveying and mapping, and can meet the large proportion. The precision requirements for surveying and mapping, low cost and high accuracy, suitable for areas with complex surveying and mapping conditions.