the Xixiayuan anti-regulating reservoir dam foundation project and the first stage anti-seepage project of Maanshan section of the Yangtze River,were detected by use of several effective non-destructive testing methods,including the geological radar,ultrasonic television,video television,and high-density elastic wave CT.
利用地质雷达、超声电视、视频电视和高密度弹性波CT等几种无损检测技术,对两个国家重点水利工程(西霞院反调节水库坝基和长江马鞍山河段一期防渗工程)的防渗墙进行了检测,通过对检测成果的分析,总结出每种无损检测技术在检测防渗墙中的优点及局限性:地质雷达检测防渗墙对内部缺陷情况可以进行定性解译,但定量测量不能满足要求;井下电视系统优点是通过超声波成像、视频成像,成果形象、直观可靠,但需要造孔;高密度弹性波CT检测防渗墙质量可反映墙体介质分布的均匀性,但目前软件只能满足一般性数据处理;超声波速CT成像技术能在不同深度位置将不同声速用不同颜色显示出来,成果一目了然,但图像颜色比较单一,相邻声速范围呈现的色彩区分较困难。
On the basis of wavelet transform and S transform,through popularizing basic wavelet, the basic wavelet containing 4 kinds of unknown parameters (amplitude, energy attenuation rate, energy-delay time and apparent frequency) was constructed, realizing generalized S transform.
在小波变换和S变换基础上,通过对基本小波的推广,构建含有四类待定参数(振幅、能量衰减率、能量延迟时间及视频率)的基本小波,实现广义S变换。