A wireless real-time communication system and method for a submarine

Abstract

The invention discloses a wireless real-time communication system and method of a subsurface buoy. The system comprises a plurality of underwater subsurface buoys and a water surface buoy; the underwater subsurface buoy comprises a plurality of marine observation devices and a subsurface buoy underwater acoustic communication set; the marine observation device is used for observing and recording marine scientific data, and the subsurface buoy underwater acoustic communication set is used for sending observation data to the water surface buoy; and the water surface buoy comprises a buoy main body, and a buoy underwater acoustic communication set and a satellite communication module, which are arranged on the buoy main body, and the buoy underwater acoustic communication set receives the observation data sent by the underwater subsurface buoy through a multi-element underwater acoustic transducer, and sends the data to a data collection server through the satellite communication module.According to the system disclosed by the invention, as the subsurface buoy and the buoy are not connected by a communication cable, the system disclosed by the invention has the advantages of simple deployment mode and high reliability and the like; and the system disclosed by the invention prolongs the maintenance period of the subsurface buoy, so that the cost of maintaining the subsurface buoyby navigation can be greatly reduced.

Description

technical field [0001] The invention relates to the field of underwater acoustic communication, in particular to a wireless real-time communication system and method for submerged buoys, which are applied to the real-time return of submerged buoy data in ocean observation. Background technique [0002] Ocean observation submersible buoys are mainly used to obtain long-period marine scientific data in deep sea areas, including information such as underwater temperature, salinity, depth, current velocity and direction. Ocean observation submersible buoys are usually deployed at depths of hundreds of meters, thousands of meters or even tens of thousands of meters underwater to observe marine scientific data at different depths. Due to the severe attenuation of conventional electromagnetic waves and optical communications underwater, it is impossible to achieve long-distance underwater information transmission. Therefore, the observation data of submarine targets cannot be trans...

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to propose a wireless real-time communication system for submerged marks, which utilizes underwater acoustic communication to solve the shortcomings of the existing underwater long-distance communication cables, such as high cost, difficult deployment, and poor reliability. The technology realizes the wireless communication between the underwater buoy and the surface buoy. First, the observation data of the submersible buoy is transmitted to the surface buoy through underwater acoustic communication, and then the buoy transmits the data back to the ground laboratory through the satellite communication module.

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