摘要
叠前去噪后,初叠剖面上还有随机、相干噪声,以及处理中产生的噪声,因此需要做叠后去噪,即修饰性处理。常用方法有相干加强,模式化加强,随机噪声衰减和去规则干扰,其原理是基于多道相干去噪。去噪具两重性,可提高信噪比,但会造成波形和构造形态失真。针对山区复杂构造低信噪比资料,提出了做好修饰性处理的思路和方法:①了解复杂构造顶部、翼部和地层变化的反射特征;②熟悉去噪方法的性能,及其参数对剖面特征的影响;③用压制干扰波来提高信噪比,有利于有效波的保真,采用f—x域滤波与f—k滤波相结合的方法,可降低对弯曲同相轴的影响程度;④解释与处理相结合,有利于压制规则干扰波和突出有效波。
After prestack noise elimination, noises may
still exist in the stacked data, so poststack noise
elimination (modified processing) is sometimes nee-
ded. The commonly used methods include coherent
enhancement, pattern enhancement, random noise
attenuation, and regular interference elimination.
The theory behind these methods is the coherency of
multiple traces. Denoising improves the signal-to-
noise ratio (S/N). On the other hand, it causes dis-
tortions of wave shape and structural features. This
paper presents a procedure of modified processing
suitable for low S/N data from mountainous areas.
Firstly the reflection characters at the top and flank
of complex structures are determined. Processors
should have knowledge of the capability of different
denoising methods and their influences on the seismic
data. Filtering in both f--x and f--k domains re-
duces the influence of the processing to curved e-
vents. Combining interpretation with data processing
is in favor of suppressing the regular noises and
makes the effective wave prominent.
出处
《石油物探》
EI
CSCD
2004年第3期251-257,共7页
Geophysical Prospecting For Petroleum
关键词
信噪比
地震资料
资料处理技术
滤波
地震剖面
地震解释
complex structure
low signal-to noise ratio
moditied processing
noise removal
reflection features
fidelity
