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System and method for monitoring river flow in real time through simulating binocular vision

A real-time monitoring system and binocular vision technology, applied in the field of visual flow measurement, can solve the problems of inability to improve sudden flood conditions and inability to estimate flood volume, so as to improve sudden flood conditions, solve corresponding hydraulic problems, and ensure reliable detection. Effect

Inactive Publication Date: 2020-05-01
STATE GRID ZHEJIANG ELECTRIC POWER
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  • Abstract
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  • Claims
  • Application Information

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Problems solved by technology

The system only monitors hydrology, and cannot estimate the amount of floods, and cannot improve the situation of sudden floods.

Method used

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  • System and method for monitoring river flow in real time through simulating binocular vision
  • System and method for monitoring river flow in real time through simulating binocular vision
  • System and method for monitoring river flow in real time through simulating binocular vision

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Embodiment

[0050] A real-time monitoring system for river flow that simulates binocular vision, such as figure 1 As shown, it includes a river water surface tracing platform 1, a natural water surface observation platform 2, an image acquisition and transmission platform 3, and a flow estimation platform 4. The natural water surface observation platform 2 is set near the river water surface tracing platform 1, the natural water surface observation platform 2 is in communication connection with the image acquisition and transmission platform 3, and the image acquisition and transmission platform 3 is in communication connection with the flow estimation platform 4.

[0051] The river water surface tracing platform 1 includes the river to be tested and a number of control points 13 arranged on both banks of the river to be tested, as well as natural surface floats 11 or natural surface waves.

[0052] The number of control points 12 is not less than 10, and the control points 12 are yellow or red...

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Abstract

The invention discloses a system and a method for monitoring river flow in real time through simulating binocular vision in order to overcome a problem that an existing flood warning system is inaccurate. The system comprises a river water surface tracing platform, a natural water surface observation platform, an image acquisition and transmission platform and a flow estimation platform, wherein the river water surface tracing platform comprises a natural water surface floating object or a natural water surface wave; the natural water surface observation platform comprises two high-definitionwide dynamic wide-angle non-distorted camera modules; the image acquisition and transmission platform comprises a plurality of remote routers which communicate through 5G; the flow estimation platformcomprises a flow calculation module and a monitoring display module; an online data real-time transmission platform is built on the basis of an optical flow method and a 5G technology, rapid analysisof data flow and online flow monitoring are realized, and the analysis response time reaches hundreds of milliseconds. Real-time and reliable flow measurement and estimation are carried out on a river network by using a computer vision means and the calculation capability, so that the severity of an event is evaluated more accurately, and a flash flood condition is improved.

Description

Technical field [0001] The invention relates to the field of visual flow measurement, in particular to a real-time monitoring system and method of river flow that simulate binocular vision. Background technique [0002] Floods are devastating natural disasters on a global scale. It is estimated that 250 million people around the world are affected by floods every year and cause billions of dollars in damage. Flood forecasting can help individuals and authorities better prepare to ensure people’s safety, but at present, many areas cannot provide accurate forecasts. Moreover, the early warning systems that do exist may be inaccurate and unable to take action, resulting in too many people not being fully prepared and fully aware of the situation before the flood. [0003] For example, a "hydrological monitoring system based on the Internet of Things" disclosed in Chinese patent documents, its announcement number "CN109506631A", includes: at least one hydrological monitoring device i...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01F1/00G01F1/66
CPCG01F1/002G01F1/661Y02A90/30
Inventor 张巍杨聃王汉勇邵广俊林烨敏刘国富刘文娟金建乐项敏胡伟飞苏洁
Owner STATE GRID ZHEJIANG ELECTRIC POWER
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