An optimization method for water quality monitoring point distribution of unmanned ships
A technology for water quality monitoring and optimization methods, applied in the direction of testing water, material inspection products, etc., can solve the problems of waste of resources, intensive placement, affecting the accuracy of test results, etc., to avoid waste of resources, facilitate accurate positioning, and improve accuracy. Effect
Active Publication Date: 2022-04-12
佛山市禅城区环境监测站
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[0004] For this reason, the purpose of the present invention is to provide an unmanned ship water quality monitoring distribution optimization method, which is used to solve the unreasonable detection point selection and unmanned ship placement in the prior art, which will not only cause waste of resources, but also affect detection. The question of the accuracy of the results
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Embodiment 1
[0042] Such as figure 1 As shown, the present embodiment provides an unmanned ship water quality monitoring distribution optimization method, including the following steps:
[0043] S1: Establish an unmanned ship water quality monitoring system, obtain topographic data of the current watershed, and set initial monitoring points according to the topographic data of the current watershed, such as figure 2 shown;
[0044] The unmanned ship water quality monitoring system includes a monitoring center, a monitoring base station and several unmanned ships. The monitoring center is connected to the monitoring base station by communication, and the monitoring base station is respectively connected to several unmanned ships by communication;
[0045] The monitoring base station is set within the geographical range of the target watershed, and is used to receive the water quality data collected by the unmanned ship and the location data of the corresponding monitoring points, process ...
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The invention belongs to the technical field of water quality monitoring, and specifically discloses an unmanned ship water quality monitoring distribution optimization method, including the following steps: S1: establishing an unmanned ship water quality monitoring system, obtaining topographic data of the current watershed, and setting The initial monitoring point; S2: place the unmanned ship at the initial monitoring point; S3: use the current location as the monitoring point, the unmanned ship collects the location data and water quality data of the monitoring point, and sends the location data and water quality data of the monitoring point Go to the monitoring center; S4: judge whether the current monitoring layout is optimal according to the location data of the monitoring points and the corresponding water quality data, if so, output the current monitoring layout and end the optimization, otherwise optimize the monitoring layout and return to step S3 . The invention solves the problems in the prior art that unreasonable detection point selection and unmanned ships are placed too densely will not only cause waste of resources, but also affect the accuracy of detection results.
Description
technical field [0001] The invention belongs to the technical field of water quality monitoring, and in particular relates to an optimization method for water quality monitoring distribution points of an unmanned ship. Background technique [0002] With the development of the times, people pay more and more attention to the problem of environmental pollution. Surface water refers to the general term of dynamic water and static water on the land surface, also known as "land water", including various liquid and solid water bodies, mainly There are rivers, lakes, swamps, glaciers, ice caps, etc. It is one of the important sources of water for human life and the main component of water resources in various countries. Therefore, monitoring the water quality of the river basin to facilitate pollution control is a key research issue in the scientific community. In the prior art, scientists use unmanned boats to detect water quality in various parts of the river, but unreasonable d...
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IPC IPC(8): G01N33/18
CPCG01N33/18
Inventor 何嘉慧李毅招丽香
Owner 佛山市禅城区环境监测站