共中点道集

共中点道集（英语：Common midpoint gather）或共反射点道集（英语：Common reflection point gather）是是地震资料处理的最基本步骤之一，它是在地震资料采集完后，收集通过同一个地下反射点所有的地震道，而组构成的道集^[1] 。这些地震道都对同一地点从不同方向和角度的采样，这种多次采样的目的是降低随机噪音，增加信噪比^[2]。

地震资料采集

在采集地震数据之前，需要规划地震勘测设计^[3]，选取各种参数包括，例如震源类型、接收器类型、震源间距、接收器间距，阵列，通道数量、采样率、记录长度等^[4]。地震数据以地震道的形式记录，也称为震波曲线图。它代表地震波由震源穿过地下，经由岩层的声阻抗界面，反射回到接收器的信号^[1].

地震数据处理

地震数据处理主要包括三个过程：反褶积、叠加速度分析及地震偏移:

反褶积又称反滤波（英语：inverse filter）,是通过压缩基本子波来提高地震数据垂向分辨率的处理过程^[5]。反褶积不但能压缩子波长度而且能衰减多次波。这种地震数据处理方法是假设地下地层结构是一个反射系数的时间函数^[6]。当地震震源子波与反射系数褶积后，形成的反射波就是检波器所接受的信号。反褶积就是从信号中，导出反射系数的时间函数^[7]。
叠加速度分析是通过最佳拟合时距曲线所得的地震波在介质传播的速度值 ^[8]。叠加速度的推算必需依赖动校正。原理是设定一速度，根据双曲线反射公式，对共中点（common midpoint )的道集，校正非法线反射到法线反射。若所设速度正确，在叠加这些道集后，反射波的振幅最大^[2].^[9].
地震偏移是把地震记录上反射点回归到其原来的真实位置。因为反射面的倾斜，一个反射点的法线,会被误置在共中点的正下方，形成视倾角（见图），故需要和把倾斜反射面归位。偏移能消除绕射，尤其在地质复杂地区，偏移能对断层，褶皱等构造的成像，增高精密度。

^[10] ^[11]. ^[12].

参考文献

^ ^1.0 ^1.1 SCHLUMBERGER. "seismic trace - Schlumberger Oilfield Glossary". www.glossary.oilfield.slb.com.
^ ^2.0 ^2.1 Yilmaz, Öz (2001). Seismic data analysis. Society of Exploration Geophysicists. p. 274. ISBN 1-56080-094-1
^ Stone, Dale (1994).Designing surveys in two and three dimensions. Society of Exploration Geophysicists. ISBN 978-1560800736
^ Keary, Philip (2013). An Introduction to Geophysical Exploration (3., Auflage ed.). John Wiley & Sons. ISBN 9781118698938
^ O'Haver, T. "Intro to Signal Processing - Deconvolution". University of Maryland at College Park. Retrieved 2007-08-15.
^ Wiener, N. (1964). Extrapolation, Interpolation, and Smoothing of Stationary Time Series. Cambridge, Mass: MIT Press. ISBN 0-262-73005-7
^ “Introduction to Deconvolution”https://www.olympus-lifescience.com/en/microscope-resource/primer/digitalimaging/deconvolution/dec^{[失效链接]}
^ AL-CHALABI, M. (1974), AN ANALYSIS OF STACKING, RMS, AVERAGE, AND INTERVAL VELOCITIES OVER A HORIZONTALLY LAYERED GROUND . Geophysical Prospecting, 22: 458-475. https://doi.org/10.1111/j.1365-2478.1974.tb00099.x
^ YILMAZ，ÖZDOǦAN （1989）VELOCITY‐STACK PROCESSING，Geophysical Prospecting, Volume 37, Issue 4, May 1989, p. 357 – 382。DOI: https://doi.org/10.1111/j.1365-2478.1989.tb02211.x
^ Chen, Yangkang; Yuan, Jiang; Zu, Shaohuan; Qu, Shan; Gan, Shuwei (2015). "Seismic imaging of simultaneous-source data using constrained least-squares reverse time migration". Journal of Applied Geophysics. 114: 32–35.Bibcode:2015JAG...114...32C. doi:10.1016/j.jappgeo.2015.01.004
^ Xue, Zhiguang; Chen, Yangkang; Fomel, Sergey; Sun, Junzhe (2016). "Seismic imaging of incomplete data and simultaneous-source data using least-squares reverse time migration with shaping regularization". Geophysics. 81 (1): S11–S20. Bibcode:2016Geop...81S..11X. doi:10.1190/geo2014-0524.1
^ Chen, Yangkang; Chen, Hanming; Xiang, Kui; Chen, Xiaohong (2017). "Preserving the discontinuities in least-squares reverse time migration of simultaneous-source data". Geophysics. 82 (3): S185–S196. Bibcode:2017Geop...82S.185C. doi:10.1190/geo2016-0456.1

[”SCHLUMBERGER”-1] 1.0 ^1.1 SCHLUMBERGER. "seismic trace - Schlumberger Oilfield Glossary". www.glossary.oilfield.slb.com.

[”Yilmaz”-2] 2.0 ^2.1 Yilmaz, Öz (2001). Seismic data analysis. Society of Exploration Geophysicists. p. 274. ISBN 1-56080-094-1

[”Stone”-3] Stone, Dale (1994).Designing surveys in two and three dimensions. Society of Exploration Geophysicists. ISBN 978-1560800736

[”Keary”-4] Keary, Philip (2013). An Introduction to Geophysical Exploration (3., Auflage ed.). John Wiley & Sons. ISBN 9781118698938

[O'Haver”-5] O'Haver, T. "Intro to Signal Processing - Deconvolution". University of Maryland at College Park. Retrieved 2007-08-15.

[”Wiener,”-6] Wiener, N. (1964). Extrapolation, Interpolation, and Smoothing of Stationary Time Series. Cambridge, Mass: MIT Press. ISBN 0-262-73005-7

[”Introduction”-7] “Introduction to Deconvolution”https://www.olympus-lifescience.com/en/microscope-resource/primer/digitalimaging/deconvolution/dec^{[失效链接]}

[”-8] AL-CHALABI, M. (1974), AN ANALYSIS OF STACKING, RMS, AVERAGE, AND INTERVAL VELOCITIES OVER A HORIZONTALLY LAYERED GROUND . Geophysical Prospecting, 22: 458-475. https://doi.org/10.1111/j.1365-2478.1974.tb00099.x

[”Yilmaz1”-9] YILMAZ，ÖZDOǦAN （1989）VELOCITY‐STACK PROCESSING，Geophysical Prospecting, Volume 37, Issue 4, May 1989, p. 357 – 382。DOI: https://doi.org/10.1111/j.1365-2478.1989.tb02211.x

[”Chen”-10] Chen, Yangkang; Yuan, Jiang; Zu, Shaohuan; Qu, Shan; Gan, Shuwei (2015). "Seismic imaging of simultaneous-source data using constrained least-squares reverse time migration". Journal of Applied Geophysics. 114: 32–35.Bibcode:2015JAG...114...32C. doi:10.1016/j.jappgeo.2015.01.004

[”Xue”-11] Xue, Zhiguang; Chen, Yangkang; Fomel, Sergey; Sun, Junzhe (2016). "Seismic imaging of incomplete data and simultaneous-source data using least-squares reverse time migration with shaping regularization". Geophysics. 81 (1): S11–S20. Bibcode:2016Geop...81S..11X. doi:10.1190/geo2014-0524.1

[”Chen1”-12] Chen, Yangkang; Chen, Hanming; Xiang, Kui; Chen, Xiaohong (2017). "Preserving the discontinuities in least-squares reverse time migration of simultaneous-source data". Geophysics. 82 (3): S185–S196. Bibcode:2017Geop...82S.185C. doi:10.1190/geo2016-0456.1

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