Air quality monitoring aircraft based on mobile phone client

Abstract

The invention relates to an air quality monitoring aircraft based on a mobile phone client. The air quality monitoring aircraft comprises an aircraft monitoring terminal and a mobile control terminal, wherein the aircraft monitoring terminal comprises an ARM processor which is connected with an air quality data acquisition system, a DSP processor, a solar electricity supply system, an SD storage module, a reformed WiFi route and a real-time clock module through power supply lines, the DSP processor is connected with a flight attitude monitoring system, a navigation auxiliary system and a motor control system through the power supply lines, the mobile control terminal adopts an Android intelligent mobile phone, and through developing APP of corresponding monitoring systems, the aircraft is controlled and air quality parameters are obtained. Monitoring equipment is carried on the aircraft, so that a wide monitoring scope can be covered. ARM+DSP principal and subordinate system structures are adopted, the characteristics of high sampling frequency and high arithmetic speed of the DSP processor are exerted, and besides, the resources of the embedded chip ARM processor can be fully utilized, so that the system is intelligent and perfect.

Description

technical field [0001] The invention relates to the technical field of air quality monitoring, in particular to an aircraft for air quality monitoring based on a mobile phone client. Background technique [0002] In recent years, with the increasing development of science and technology and the continuous improvement of people's living standards, human beings are paying more and more attention to their own living environment and quality of life. Various negative problems follow, such as food safety issues, environmental and ecological issues, etc. In recent years, air pollution has had an indelible impact on human personal safety. Emerging words such as PM2.5, PM10, and smog continue to emerge, especially the PM2.5 that has appeared in many cities in the past two years has endangered people's lives and health. Therefore, accurate monitoring of air quality to obtain real-time and effective data, so as to take effective prevention and control measures, is of great significanc...

AI Technical Summary

Problems solved by technology

[0003] At present, the existing air quality data is generally collected through the monitoring base station set up by the environmental protection department, but the cost of setting up the base station is expensive, requiring specialized technical personnel to monitor and maintain, and the operation cost is high

Moreover, due to the large scale of the city, monitoring sensors cannot be widely deployed, and the monitoring range of the deployed sensors is very limited, which is not conducive to the extensive collection and comprehensive analysis of real-time data.

In addition, artificial handheld monitoring equipment is used for manual monitoring. After the equipment collects data, it will be reported and released in a centralized manner. This method not only requires a lot of manpower and material resources, but also from data collection, analysis and processing to the final release. It takes a long time to achieve real-time data collection and detection

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