With the rapid development of technologies such as artificial intelligence and the Internet of Things, the agricultural field has also been effectively applied. In this context, agricultural drones have emerged as a major technological innovation in the agricultural field. Progress in agricultural drone research, monitoring the growth of forage crops.
Agricultural drone is a drone system that can fly within the range of farmland and perform various agricultural operations through high-resolution images and sensor information. With the progress of agricultural technology, agricultural drones have gradually been applied to agricultural production and scientific research.
As an application field of agricultural drones, the growth and monitoring of forage crops is a relatively important aspect. Forage crops are an important component of agricultural cultivation, which can provide abundant protein and nutrients for identified livestock. Therefore, the growth and monitoring of forage crops are particularly important.
Agricultural UAVs are used in the growth and monitoring of forage crops. Through high-precision topographic and geomorphic images, they can judge soil fertility, soil moisture and other conditions, so as to conduct data analysis on the growth and development of forage crops.
At the same time, by collecting data from multiple sensors such as multispectral and infrared cameras, it is possible to achieve canopy detection and high-precision remote sensing image analysis of forage crops. This not only enables more accurate prediction of crop yield, but also facilitates the detection and elimination of various adverse factors.
In this regard, domestic and foreign scientific and technological teams have actively developed and applied agricultural drones, and have achieved a series of significant results. For example, the research team of Kansas State University in the United States has developed a Doppler radar equipped with UAVs to detect the growth of forage crops and land improvement; The agricultural engineering Department of Saskatoon University in Canada has also developed a UAV system for forage crop growth monitoring, which has been successfully applied to local agricultural production practices.
At present, in practical application, the monitoring technology of agricultural UAVs still has many areas to be improved. For example, the combination of artificial intelligence technology and monitoring data can better predict and process the yield of agricultural products such as forage crops and optimize economic benefits.
In short, the application of agricultural drone monitoring technology for forage crop growth is not only an important direction of agricultural scientific research, but also a new field that will continuously improve the quality and efficiency of crop growth in agricultural production and promote sustainable development of agriculture.
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