樊顾飞,高昂,王芳芳,等. 基于图像识别技术的测压管群水深智能获取方法[J]. 水利水运工程学报,2022(5):123-128. doi: 10.12170/20210830001
引用本文: 樊顾飞,高昂,王芳芳,等. 基于图像识别技术的测压管群水深智能获取方法[J]. 水利水运工程学报,2022(5):123-128. doi: 10.12170/20210830001
(FAN Gufei, GAO Ang, WANG Fangfang, et al. Intelligent acquisition method of piezometric pipe group water depth based on image recognition technology[J]. Hydro-Science and Engineering, 2022(5): 123-128. (in Chinese)). doi: 10.12170/20210830001
Citation: (FAN Gufei, GAO Ang, WANG Fangfang, et al. Intelligent acquisition method of piezometric pipe group water depth based on image recognition technology[J]. Hydro-Science and Engineering, 2022(5): 123-128. (in Chinese)). doi: 10.12170/20210830001

基于图像识别技术的测压管群水深智能获取方法

Intelligent acquisition method of piezometric pipe group water depth based on image recognition technology

  • 摘要: 为在水工模型试验中准确同步获取过水建筑物不同部位水压力,提出并设计了基于图像识别技术的测压管群水深智能获取方法与系统。该系统采用非接触式(侧拍)影像采集方式,实时拍摄多个测压管内水面浮标的运动影像(反映水深变化过程),将影像资料导入计算机;利用软件识别系统,采用灰度化、二值化及开操作等对图像进行预处理,然后使用findContours获取各个测压管水面浮标质心坐标,通过标定系数转换为实际水位数据,最终得到各个测压管内水深同步变化的时间序列。通过水工模型试验验证,该方法较传统人工测量方法获得的数据误差在±1.5%内,且获取方式更快捷、数据更丰富,可为水工模型试验中测压管群水深测量提供新的思路。

     

    Abstract: In order to accurately and quickly obtain the water pressure of different parts of the water-passing structure in the hydraulic model test, a method and a system for the intelligent acquisition of the water depth of the piezometric pipe group based on image recognition technology have been proposed and designed. The system adopts a non-contact (shot from a side) image acquisition method which can shoot real-time moving images of water surface buoys in a large number of pressure measuring tubes (reflecting the changing process of water depth), and then import the image data into the computer; the software recognition system adopts grayscale, binary values and opening operations to preprocess the image in preparation. When pretreatment work is finished, findContours would be used to obtain the centroid coordinates of the water surface buoys of each piezometer tube, which would be converted into actual water level data through calibration coefficients, and finally the time series of the synchronous changes of the water depth in each piezometer tube would be obtained. Compared with the traditional manual measurement method, the verification result of hydraulic model test shows that the data error obtained by this method is no more than ±1.5% compared with the traditional manual measurement method, but the acquisition method is faster, the data is richer, and the accuracy is higher.

     

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