The Internet of Things monitoring system of the National Orientation Observation and Research Station of the Yulin Mu Us Sandy Land Ecosystem built by the Shaanxi Institute of Desert Control was successfully commissioned in December 2019, and the system was put into use and is operating normally. Dianjiang Technology provided the Internet of Things monitoring system and wind erosion monitoring station, weather station, soil respiration and other monitoring equipment for this project.
Soil respiration station monitoring | Wind Erosion Monitoring Station | 10-meter standard weather station | Sand collector | Evaporation tray
After half a century of hard work, the control of desertification in the Maowusu Sandy Land in Yulin has achieved remarkable results. The desertification has been reversed in some areas, and many places have become oasis, farmland, forest farm, and pasture. However, the trend of "partial improvement and overall expansion" has not changed. The total area of sandy land is expanding, and desertification is still increasing. Desertification prevention and control work has a long way to go. The desertification and inverse desertification of the Mu Us Sandy Land are the result of a multi-factor and multi-system intertwined comprehensive effect. The study of the law of the action of each system requires a large amount of long-term scientific monitoring data to support. The establishment of the project accumulates scientific data for the research, protection and sand prevention and control of the sandy land ecosystem, assists in scientific decision-making, makes the fragile desert ecosystem enter a virtuous circle, and promotes the sustainable development of the regional society and economy.
The project includes five monitoring stations, namely: wind erosion monitoring station, wind erosion monitoring station, automatic weather station, ten-meter standard weather station, soil respiration monitoring station, and a total of about 64 data monitoring points. Each monitoring station is connected to the Internet through a mobile communication network, connected to a server with a fixed IP deployed by the user, and connected to the monitoring system platform to realize real-time viewing of monitoring pictures and monitoring data.
The operation interface of the Internet of Things platform:
Automatic weather station
Wind Erosion Monitoring Station
Soil respiration monitoring station
The project uses our company's Internet of Things platform based on the b/s architecture, which provides rich and powerful SCADA monitoring functions. At the same time, it is based on the cloud configuration configuration of the browser and the traditional database, and the one-key import of the field data configuration makes the configuration configuration The work is quite flexible and simple. The platform also uses non-relational databases for high-concurrency and high-throughput real-time data processing and persistence, making the system run smoothly and stably.
Data curve and histogram display
Dianjiang Technology Internet of Things has the following outstanding features:
1. Access to a rich variety of communication protocols: various industrial communication protocols, Modbus and other protocol conversions;
2. The platforms of all versions of the MQTT protocol are seamlessly connected;
3. Abundant data collection, cloud configuration, custom report and curve chart analysis, alarm push, equipment management, user authority distribution and other functions;
4. The platform is based on the b/s architecture, and at the same time, the cloud configuration configuration based on the browser and the traditional database, and the one-key import of the field data configuration makes the configuration configuration work very flexible and simple;
5. In addition, the platform also uses non-relational databases for high-concurrency and high-throughput real-time data processing and persistence, making the system run smoothly and stably.
The Internet of Things monitoring system of the National Orientation Observation and Research Station of the Mu Us Sandy Land Ecosystem in Yulin City is another proof of the strength of the Internet of Science and Technology in the agricultural and ecological industries. During the project implementation process, our technical staff actively cooperated with the winning bidder according to the project implementation nodes, and completed the equipment installation, platform software configuration and commissioning according to the quality and on time. The short project period fully reflects the ease of deployment and low configuration workload of our platform.