Water quality online intelligent monitoring analysis processing method based on Internet of Things and big data analysis

Abstract

The invention discloses a water quality online intelligent monitoring analysis processing method based on Internet of Things and big data analysis. The method comprises the steps of carrying out the depth sub-region division of an ocean region, and obtaining the biological species, inhabitation density and seawater water body parameters in each depth sub-region, counting the biological richness pollution coefficient and the total biological species water survival pollution coefficient corresponding to each depth sub-region, acquiring basic parameters of the seabed sediment in the ocean region, then counting the pollution coefficient corresponding to the seabed sediment in the ocean region, and acquiring the comprehensive pollution coefficient of the water quality in the ocean region by combining the pollution coefficients. The obtained comprehensive pollution coefficient of the water quality of the ocean region can comprehensively reflect the comprehensive pollution condition of the seawater quality, the defect that the monitoring index of an existing seawater quality monitoring method is too single is overcome, the range of the seawater quality monitoring index is expanded, and the accuracy of the seawater quality monitoring result is improved. The monitoring level of seawater quality is greatly improved.

Description

technical field [0001] The invention belongs to the technical field of water quality monitoring, and in particular relates to an online intelligent monitoring, analysis and processing method for water quality based on the Internet of Things and big data analysis. Background technique [0002] With the increasing development and utilization of marine resources, the problem of seawater pollution is becoming more and more serious. In order to obtain the degree of pollution of seawater, this makes seawater quality monitoring an increasingly important topic. attention of the people of the world. However, most of the current seawater quality monitoring methods only detect the water parameters of seawater, such as seawater temperature, chromaticity, pH, etc., and the monitoring indicators are too single, without taking into account the changes in the richness of biological species in the ocean and the basic parameters of seabed sediments. The impact of changes on the degree of sea...

AI Technical Summary

Problems solved by technology

However, most of the current seawater quality monitoring methods only detect the water parameters of seawater, such as seawater temperature, chromaticity, pH, etc., and the monitoring indicators are too single, without taking into account the changes in the richness of biological species in the ocean and the basic parameters of seabed sediments. The impact of changes on the degree of seawater pollution is specifically reflected as follows:

[0003] 1. As we all know, there are all kinds of organisms living in the ocean, and their corresponding habitats are in the deep ocean area suitable for growth. When the seawater quality in the corresponding deep ocean area is polluted, the seawater in the deep ocean area is likely to be It is no longer suitable for some organisms to survive, and the species of organisms living in this deep ocean area will decrease, thereby reducing the richness of biological species in this deep ocean area. Conversely, when the biological species richness in a certain deep ocean area exists When the depth changes, the sea water quality in this deep ocean area may be polluted

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