Submarine Observation Network System Based on Integrated Junction Box

Abstract

The invention discloses a submarine observation network system based on an integrated junction box, comprising a first shore base station and a second shore base station, the first shore base station and the second shore base station are connected by a submarine cable, and the submarine cable consists of multiple sections Submarine optical cable connection structure, two adjacent sections of submarine optical cables are connected through an integrated junction box, each integrated junction box is connected with a sensor, the integrated junction box is used to control the sensor to collect submarine information data, and The collected submarine information data is transmitted to the submarine optical cable connected to the integrated junction box, and the submarine optical cable is transmitted to the adjacent integrated junction box, and the submarine information data continues through the adjacent integrated junction box It is forwarded to the next integrated junction box, and finally transmitted to the first shore base station or the second shore base station. The invention can conveniently and effectively collect and communicate ocean information data in real time, reduces transmission time delay and improves data transmission reliability.

Description

technical field [0001] The invention relates to the technical field of seabed observation, in particular to a seabed observation network system based on an integrated junction box. Background technique [0002] The seabed observation network system is a system for monitoring ocean data information to analyze issues such as climate change, sea level rise, ocean warming, tsunamis and earthquakes through the monitoring of ocean data information. Existing seabed observation networks usually use the following two ways to collect data. One way is to collect data through survey ships / survey planes. This method has high labor costs and cannot perform long-term real-time data collection and data communication. Using fixed buoys for data collection, this method requires data communication through satellite, cellular communication or microwave communication. The transmission delay is large and the transmission reliability is low. Regular maintenance is required every 3-6 months, and th...

AI Technical Summary

Problems solved by technology

The existing seabed observation network usually adopts the following two ways to collect data. One way is to collect data through survey ships / planes. This method has high labor costs and cannot carry out long-term real-time data collection and data communication; the other way is Use fixed buoys for data collection. This method requires data communication through satellite, cellular communication or microwave communication. The transmission delay is large, the transmission reliability is low, and regular maintenance is required every 3-6 months, and the maintenance cost is relatively high. high

[0003] Therefore, the existing seabed monitoring network system cannot conveniently and effectively carry out real-time collection and communication of seabed data, and cannot meet the needs of use

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