A Cotton High-Efficiency Water-Fertilizer Control System Using Wireless Sensor Network for Precision Agriculture

Scientific researchers have applied newly developed technologies, such as sensors and actuators, to different fields, including environmental monitoring, traffic management, and precision agriculture. Using agricultural technology to assist crop fertilization is an important research innovation that can not only reduce the workload of farmers, but also reduce resource waste and soil pollution. This paper describes the design and development of a water-fertilizer control system based on the soil conductivity threshold. The system uses a low-cost wireless sensor network as a data collection and transmission tool and transmits the data to the decision support system. The decision support system considers the change in soil electrical conductivity (EC) and moisture content to guide the application of water-fertilizer, and then improves the fertilization accuracy of the water-fertilizer control system. In the experiment, the proposed water-fertilizer control system was tested, and it was concluded that, compared with the existing traditional water-fertilizer integration control system, the amount of fertilizer used by the system was reduced by 10.89% on average, and it could save 0.76-0.87 tons of fertilizer throughout the whole growth period of cotton.

Automated summary

By utilizing newly developed technologies like sensors and actuators, scientific researchers have created a water-fertilizer control system based on soil conductivity, improving fertilization accuracy in agriculture. The system was tested and found to reduce fertilizer usage by an average of 10.89% compared to traditional systems, saving 0.76-0.87 tons of fertilizer throughout the entire growth period.