Abstract
This article is devoted to the discussion of the initial results of a research project devoted to the development of a magneto induction communication system, as well as the study of the main goal of the research at the moment: the search for profitable ways to build and transmit data. Based on the above goal, the physical meaning of the proposed method based on the electrohydraulic Yutkin effect was considered, which can be used to retransmit a signal under water between a network of antennas to increase the range of transmitted information. The creation of an experimental network of receiving and transmitting devices with a set of antennas will be the first step towards further research in the field of promising underwater wireless communications for use in the agro-industrial complex (AGP). The information presented in the text is recommended to a narrow circle of specialists, primarily in the field of information transmission, development of modern means of communication.
Highlights
Magnetic induction (MI) communication is a promising method of land and underwater transmission of useful information that can be widely used in agro-industrial areas, such as: fish farming, agriculture
It was found that: the values of losses on the route of the MI system are higher than in fresh water due to the higher value of the conductivity of sea water; when organizing a communication channel in sea water, the penetration depth of the signal is lower than in fresh water; the received signal power, which depends on the distance of the transmitter and receiver, will be equal to 12 dB
Magnetic-inductive communication is a promising method of ground and underwater data transmission that requires further development
Summary
Magnetic induction (MI) communication is a promising method of land and underwater transmission of useful information that can be widely used in agro-industrial areas, such as: fish farming (aquaculture), agriculture. In these areas, "smart" digital systems have recently been developed that will modernize the processes of collecting, processing, transmitting, and monitoring information. When implementing the development in fish farming, it is planned to check the condition of swimming pools, the environment (the content of dangerous substances in the air or water that exceed the norm). Agriculture will be able to collect information about weather conditions, the state of crops, precipitation, as well as about approaching dangerous and destructive phenomena (elements). Pro MI has the following advantages: a slight delay in signal propagation (the speed of propagation of the MI wave under water: 33300000 meters per second), the absence of multipath signal, as well as quiet and invisible properties of underwater operations
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