Intelligent port marine environment real-time monitoring system

Abstract

The invention discloses an intelligent port marine environment real-time monitoring system mainly comprising a shore system, an energy and data transmission system and an underwater observation platform. The monitoring system carries out 220V alternating-current voltage transmission and data interaction by using a submarine cable based on a power carrier technology, realizes acquisition, processing and control of diverse data as well as simultaneous real-time observation of conventional submarine environmental factors and submarine video, and realizes on-line and wireless real-time observation via network communication modules integrating communication modules of 4G, TCP/TP, Beidou satellite and the like; simultaneously, special cables are not needed, and the existing power line can be directly transformed, so that the construction and transformation costs are reduced, grid-connection usage is facilitated, a monitoring and command system capable of fusing marine environment data to a port in real time is provided for pilots, and simultaneously, long-term observation can also be realized at an island and other places via an integrated generator set and a new energy generator.

Description

technical field [0001] The invention belongs to the technical fields of marine environment monitoring, water transportation and communication, and in particular relates to a real-time monitoring system for an intelligent port marine environment. Background technique [0002] With the development of port engineering, the passing capacity of the port is increasingly dependent on the water depth indicators of the port area and channel. Traditionally, the monitoring and forecasting of water depth in port areas and channels mainly rely on manual observation data and irregular tidal data collection, and analyze the collected data based on human experience to predict water depth conditions. In fact, the port channel water is deeply affected by many factors, mainly including wind, current, temperature and so on. Traditional manual observation data is collected from time to time with some simple instruments, and there is no real-time continuous monitoring. The accuracy and reliabili...

AI Technical Summary

Problems solved by technology

Traditional manual observation data is collected from time to time with some simple instruments, and there is no real-time continuous monitoring. The accuracy and reliability of the data are relatively poor, and the data cannot reflect the changes in water level and flow caused by rivers and other meteorological factors. Provide accurate parameter basis

[0003] At present, the port is busy and the navigation is intensive, and the port security urgently needs the support of various marine environments. The existing observations are mainly limited to the ocean tide level, and there are ocean currents in some important ports. Especially with the large size of the ship and the extension of the harbor, the marine environment It has become an important factor. The widely used X-band radar can obtain the conditions of sea waves and currents in the port area, but there are many interferences, which are only limited to the surface;

[0004] In recent years, the submarine observation system has received extensive attention and investment in technology research and development, and has realized the monitoring of the marine environment in some areas, but the limited application range is not suitable for marine environment monitoring in ports.

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