1) elevation static correction
高程静校正
1.
It is showed that wave equation datuming has the highest precision and the elevation static correction lowest among conventional elevation static correction, tomographic static correction, wave equation datuming, and Kirchho.
结果表明 ,在常规高程静校正、层析静校正、克希霍夫静校正和波动方程静校正中 ,波动方程静校正的精度最高 ,而高程静校正的精度最低。
2) wave equation datuming
波动方程静校正
1.
The development course of wave equation datuming is reviewed, and the principle and application conditions of wave equation datuming based on Born approximation are briefly described.
简要介绍了波动方程静校正的发展过程和基于Born近似的波动方程静校正的基本原理及其应用条件。
3) high-frequency components of statics
静校正高频分量
4) high fidelity static correction
高保真静校正
5) high frequency residual statics
高频剩余静校正
6) mid-to-high frequency static corrections
中高频静校正
1.
In view of data acquisition, and processing feature of mountainous Walk-away VSP and starting from following aspects: optimizing acquisition parameters, mid-to-high frequency static corrections, velocity model-building and reasonable approximation, wavefield separation and prestack migration imaging, the paper carried out study and created a set of data acquisition, processing methods.
本文针对山地Walk-away VSP资料采集、处理的特点,从优化采集参数、中高频静校正方法,速度模型建立及其合理性评价、波场分离、叠前偏移成像等几个方面进行了研究,建立了一套资料采集、处理方法。
补充资料:高程
以大地水准面作为基准面,并作零点(水准原点)起算地面各测量点的垂直高度。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条