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三参量速度信息的求取及应用
引用本文:徐常练 张红英. 三参量速度信息的求取及应用[J]. 石油地球物理勘探, 1994, 29(4): 483-489
作者姓名:徐常练 张红英
作者单位:石油地球物理勘探局研究院!072750
摘    要:对于三维地震勘探,在地下界面倾斜的情况下,其CMP道集的动校正速度不仅随空间位置和t0时间变化,而且与炮点-检波点连线的观测方向有关,为了得到较好的动校正效果,必须进行三参量速度分析,确定地下反射界三参量速度信息,即倾向,倾角和均方根速度。笔者介绍的三参量速度分析迭代算法充分利用采集到的三维地震资料,在叠加道集上求取地层的倾向和倾角,在CMP道集上扫描确定均方根速度,减少了解的不确定性,并且使解释

关 键 词:三维 倾斜 界面 地震勘探

Determination of three-parameter velocity informations and the application
Xu Changlian and Zhang Hongying.. Determination of three-parameter velocity informations and the application[J]. Oil Geophysical Prospecting, 1994, 29(4): 483-489
Authors:Xu Changlian and Zhang Hongying.
Abstract:In the case of slant subsurface interfaces,dynamic correction velocity for CMP trace gathers of 3D seismic data depends on t0,position and observation direction (sourec-receiving line direction). In order to achieve good dynamic correction , we must do three-parameter velocity analysis,namely determination of three-parameter velocity informations of subsurface reflector: dip direction, dip angle and mean square-root velocity. The iteration algorithm for three-parameter velocity analysis fully uses 3D seis-mic data to derive the dip direction and dip angle form stacked trace gathers and todetermine the mean square-root velocity by scanning CMP gathers, thus reducingthe uncertainty of solution and minimizing interpretation. This method needs directional velocity cornputation,followed by spatial interpolation,azimuth and dip interpolations being convenient.It has been practically shown that this method improves 3D seismic data processing.
Keywords:three-dimensional seismology   dip direction   dip angle   mean square-root velocity   iteration  dynamic correction  slant interface
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