NEUROCOGNITIVE METHODS AND ALGORITHMS OF FEDERATED LEARNING OF INTELLIGENT INTEGRATED INFORMATION MANAGEMENT SYSTEMS IN A REAL COMMUNICATIVE ENVIRONMENT
Keywords:
Neurocognitive architectures, intelligent Neurocognitive architectures, intelligent agents, federated learning, smart agricultural systems, autonomous robot, plant protectionAbstract
Unlike existing methods of teaching artificial intelligence systems, approaches based on federated
learning will not require a long and expensive procedure for preparing a training sample when
creating and mass practical application of "smart" agricultural systems, autonomous unmanned
agricultural machines and robots, and the knowledge obtained by the decision-making system will be
updated on an ongoing basis. The aim of the research is to develop and implement end-to-end artificial
intelligence technology, the lack of which today prevents the creation of integrated information
management systems for crop and livestock production ("smart" agricultural systems) based on the
group application of unmanned ground and aerial agricultural machines and robots. The introduction
of such intelligent systems is necessary to preserve and improve the products produced and ensure
the sustainable development of agriculture. The article describes neurocognitive methods and
algorithms of federated learning of intelligent agricultural process management systems in a real environment. The structure of data and knowledge exchange in the smart field system based on a
distributed network of intelligent agents managing smart field systems on various agricultural lands,
based on federated learning, is also proposed. Each intelligent agent is a software model of the neurocognitive
processes of reasoning and decision-making within the framework of solving a specific
task. The proposed structure will facilitate the joint accumulation of a knowledge base in the field of
agriculture and will be able to become the basis for many different intelligent agents that effectively
perform specific tasks within a distributed network of smart field management systems. There is also
a description of intelligent agents performing various tasks in a real environment. Examples of autonomous
robotic and software complexes being developed are given, on the basis of which it is
planned to test the proposed concept of federated training of "smart" field systems. At the same time,
the article describes the expected effects of the introduction of technologies based on the developed
methods and algorithms of federated training of intelligent agents controlling smart field systems.
