Real-time analysis method for sewage color and flow detection on basis of sewage port video

A technology of flow detection and real-time analysis, applied in measuring devices, optical testing flaws/defects, instruments, etc., can solve problems such as missing timely processing, monitoring personnel and display equipment paying attention at the same time, and monitoring personnel not being able to concentrate for a long time. Achieve the effect of eliminating hidden dangers and benefiting healthy development

Active Publication Date: 2016-06-15
重庆扬讯数字科技股份有限公司
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AI Technical Summary

Benefits of technology

This technology helps detect leaks or blockages that may occur during wastewater treatment processes by capturing images from different parts of the facility's underground pipe network. These captured image frames are then analyzed with computer software tools to determine how much liquid has been collected within them over an extended period of time (usually several hours). By doing this analysis, researchers will help identify potential issues early before they become more difficult to fix themselves without causing damage.

Problems solved by technology

This patented technical problem addressed in this patents relates to improving the efficiency and accuracy of detecting potential or existing issues related to wastewater management systems such as contamination from manure overflows caused by human activities like runoff rain or snow melting. Current methods require manual observation and may lead to overlooked areas where no significant threat exists even after hours.

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  • Real-time analysis method for sewage color and flow detection on basis of sewage port video
  • Real-time analysis method for sewage color and flow detection on basis of sewage port video
  • Real-time analysis method for sewage color and flow detection on basis of sewage port video

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Embodiment Construction

[0011] The present invention will be further described below in conjunction with the accompanying drawings and specific embodiments.

[0012] Through the drainage of many sewage outlets, it is found that after the water is discharged, the shape of the water surface at the same outlet is random, the texture features are not obvious, and there is no commonality; at the same time, due to the continuous change of the shape of the water flow, there are reflections in many places (Also called high light, the word high light is used below to replace it), which has a great impact on color detection; now many sewage outlets use Parshall grooves (also known as Bassett grooves), on which A flowmeter is installed, if the flowmeter is intervened manually, the data of the flowmeter will be distorted. On the basis of fully considering these problems, a set of methods is designed to solve these problems.

[0013] Such as figure 1 As shown, this method realizes real-time on-site monitoring o...

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Abstract

The invention discloses a real-time analysis method for sewage color and flow detection on the basis of a sewage port video. The method comprises steps as follows: firstly, whether water is drained from a drainage port is detected, if water is drained, colors of different pixel positions of a current running water area are detected and compared with images when no water is drained, the water flow transparency is acquired according to the color distance, the colors are converted to a white background uniformly, and the transparency rate and the conversion colors are output; the transparency rate and the colors are converted, the transparency rate and the colors after sewage treatment under the standard condition are compared, the relative volume of the drained water is converted, and if the drainage port is a standard Parshall flume, the actual volume of the water flow is converted. The sewage drainage port is monitored on scene in real time, whether the water is drained from the drainage port is detected, and if the water is drained timely, the color, the flow volume and the transparency rate of the sewage are extracted. The actual volume of water flow and the height of the water flow at a Parshall flume pipe can be further calculated.

Description

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Claims

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Application Information

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Owner 重庆扬讯数字科技股份有限公司
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