Time frequency neighborhood signals de-noise method in ultrasonic inspection
In the process of ultrasonic testing, the quality of flaw echo signals in A-scan lay a better determinant foundation for location, quantitative and qualitative valuation. Flaw echo signal exited the characteristics of electrical noise, scattering noise in ultrasonic testing, which was sometimes very difficult to eliminate. Considering the distinct-hess of distribution between defects signals and noises, a time frequency neighborhood de-noise method based on wavelet packet transform was presented. Study mathematics properties of flaw echo signals and analyze the composition of noises and their characters in ultrasonic echo signals. According to the noise level and the variance in a neighborhood region, we presented an algorithm that wavelet transform coefficients of noise were filtered by changing threshold on the different scale and reconstructed the detection echo in order to enhance signal-to-noise ratio. Experiments with both simulated signals and measured signals have been carried out, and the result show that due to making the best use of the information of time and frequency domain at the same time in ultrasonic echo signals, this method can improve the signal noise ratio and the distinguish ability between signals of different defects classes, and suppress energy attenuation as well as signal distortion efficiently. And flaw location accuracy and longitudinal resolution are advanced too.
Ultrasonic testing Wavelet transform Threshold Signal-to-noise ratio Signal distortion
Gaohua Liao Dehui Liu
School of Mechanical Engineering,Nanchang Institute of Technology,Nanchang,China
国际会议
长沙
英文
552-555
2009-04-11(万方平台首次上网日期,不代表论文的发表时间)