Applications of Image Recognition for Real-Time Water Level and Surface Velocity

Franco Lin, Wen-Yi Chang, Lung-Cheng Lee, Hung-Ta Hsiao, W. Tsai, J. Lai
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引用次数: 26

Abstract

In this paper, we present two types of the real-time water monitoring system using the image processing technology, the water level recognition and the surface velocity recognition. According to the bridge failure investigation, floods in the river often pose potential risk to bridges, and scouring could undermine the pier foundation and cause the structures to collapse. It is very important to develop monitoring techniques for bridge safety in the field. In this study, we installed two high-resolution cameras on the in-situ bridge site to get the real-time water level and surface velocity image. For the water level recognition, we use the image processing techniques of the image binarization, character recognition, and water line detection. For the surface velocity recognition, the proposed system apply the PIV(Particle Image Velocimetry, PIV) method to obtain the recognition of the water surface velocity by the cross correlation analysis. Finally, the proposed systems are used to record and measure the variations of the water level and surface velocity for a period of three days. The good results show that the proposed systems have potential to provide real-time information of water level and surface velocity during flood periods.
实时水位和水面速度图像识别的应用
本文介绍了两种基于图像处理技术的实时水位监测系统:水位识别和水面流速识别。根据桥梁的破坏调查,河流中的洪水经常对桥梁造成潜在的危险,冲刷会破坏桥墩基础,导致结构倒塌。在现场开展桥梁安全监测技术具有十分重要的意义。在本研究中,我们在桥址上安装了两台高分辨率摄像机,获得了实时的水位和水面速度图像。在水位识别方面,我们采用了图像二值化、字符识别和水线检测等图像处理技术。在水面速度识别方面,该系统采用粒子图像测速(PIV)方法,通过互相关分析获得水面速度的识别。最后,用所提出的系统记录和测量了为期三天的水位和地表速度的变化。结果表明,该系统具有提供汛期水位和地表流速实时信息的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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