In modern agriculture, the use of pesticides is an important means of improving crop yield and quality. However, traditional methods of pesticide application often suffer from low efficacy and poor utilization, leading to pesticide waste and environmental pollution. To address these issues, achieving efficient, precise, and intelligent pesticide application technology and equipment that allows for on-demand precision spraying, variable spraying, and separation of humans from machinery and pesticides has become crucial.
Precision pesticide application technology involves using sensor detection technology to obtain information about the spray targets, i.e., crops and pests. A computational decision-making system formulates precise spraying strategies and drives a variable execution system or mechanism to perform real-time, non-uniform, and discontinuous precise spraying operations, ultimately achieving on-demand pesticide application.
Variable spraying adjusts the pesticide amount according to the actual needs in different plots or crop growth stages, avoiding excessive pesticide use.
The technology of separating humans from machinery and pesticides ensures safety during the pesticide application process, reducing the risk of direct contact with pesticides for operators and improving both operational efficiency and safety.
Modern intelligent pesticide application technology uses advanced methods such as sensors, GPS, and data analysis to monitor and analyze crop growth and pest conditions in real-time, achieving precise and efficient pesticide application. This not only enhances pesticide efficacy and utilization but also significantly reduces environmental pollution, promoting sustainable agricultural development.
In summary, efficient, precise, and intelligent pesticide application technology and equipment are the inevitable trends in modern agricultural development and are essential guarantees for improving pesticide efficacy and utilization. Through the application of these advanced technologies, farmers can save costs, protect the environment, and achieve green and sustainable agricultural development.