Abstract
The article addresses issues on application of unmanned aerial vehicles (UAV) to monitor nitrogen nutrition through the example of wheat plants. The optical spectral range can be used to monitor exploitation of the UAV. It is recommended to develop specialized spectral indices for such equipment. The article provides calibration curves for nitrogen nutrition monitoring. In the created neural networks, the linear model is represented as a network without intermediate layers, which in the output layer contains only linear elements, the weight corresponds to the elements of the matrix, and the thresholds are the components of the shear vector. During the operation, the neural network actually multiplies the vector of inputs into the matrix of scales, and then adds a vector of displacement to the resulting vector. Results of the research show how to create the specialized RPVI adapted to technological capabilities of UAVs. It has been experimentally proved that input parameters that describe the state of agricultural plantations are regularly distributed. The average statistical characteristics for additive color RGB model is advisable to be the neural network input instead of large sample data volume.
Highlights
Diagnosis of plants nutrition in agricultural production areas today has become extremely necessary among measures for sustainable development of crop
Nutrition most often provides for nitrogen fertilizer, so far as grain quality is determined primarily by protein, which is an integral part of nitrogen
To study the effect of different fertilizer standards such experiment options as 1) no fertilizer; 2) P80; 3) R80K80; 4) N60R80K80; 5) N90R120K120 were selected for winter wheat
Summary
Diagnosis of plants nutrition in agricultural production areas today has become extremely necessary among measures for sustainable development of crop. Along with advantages of satellite platforms for monitoring, there are certain physical limitations on their use, such as the lack of possibility to use them during cloudy weather, restrictions on the frequency band due to “transparency windows” of the atmosphere, etc. The solution to these problems should be the implementation of a stand-alone in-field remote sensing system (robot plane – RP), which has become affordable for farmers in recent decades. The aim of our research is to assess the possibilities of RP usage for nitrogen nutrition monitoring on the example of wheat plants
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