Remote body sensing control hydrology and water quality monitoring system platform

Abstract

The invention relates to a remote body sensing control hydrology and water quality monitoring system platform. The platform comprises a hydrology sensing module, a water quality sensing module, a meteorology sensing module, a video acquisition module, a GPS/big dipper navigation module, a multipurpose power supply system, a data collector, a control system, a GPRS communication module, a server and terminal equipment. A multipurpose power supply comprises a solar power supply and a direct current stand-by power supply module and provides power for a system platform. The data collector is connected to various sensing modules and receives data collected by a sensor. The video acquisition module carries out real-time video monitoring and a client realizes hydrology state live broadcasting. A GPS/big dipper positioning system accurately positions the system so that a background acquires system position information and surrounding terrain information on a map and makes the system move to a new destination through marking the destination. A system control module comprises a remote control sensing module and a gesture sensing induction motion direction identification module, and realizes a dual control function that a remote controller and an authorized operator carry out system movement control through correlation gesture motion. Bidirectional communication of platform acquisition information and control information sent by a client and data processing are completed by the GPRS communication module and a server terminal.

Description

Technical field [0001] The invention belongs to a hydrological and water quality automatic monitoring system, and specifically relates to a remote somatosensory control hydrological and water quality automatic monitoring system. Background technique [0002] Water is a limited natural resource that humans rely on for survival. The quality of water has a direct impact on people's daily life. The overall water quality in my country is not optimistic. According to the monthly water quality report data given by my country's Environmental Monitoring Station in 2013, only 3.33% of my country's main river systems have reached the national surface water Class I standard, while the inferior Class V water quality with almost no use function is as high as 10.25%. Eutrophication in rivers and lakes has increased. Among them, water blooms are the most serious. They not only cause algae to multiply, reduce the transparency of water bodies and deteriorate water quality, but also seriously dam...

AI Technical Summary

Problems solved by technology

[0004] At present, in my country's water environment monitoring, the monitoring method mainly adopts laboratory manual monitoring as the main method and remote automatic monitoring as the auxiliary method. Among them, the water quality laboratory monitoring has poor real-time performance, large manpower consumption, and low degree of automation; my country started research relatively late, and these technologies are still in their infancy, and there is still a big gap with developed regions such as Europe and North America.

There are problems such as low intelligence, poor stability, and low accuracy of forecasting, and...

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