For Libraries For Publication Open Access Downloads About Us Contact Us
Paper Titles
Three-Dimensional Mesh Model Watermarking Algorithm
p.1481
Parallel Programming Methods Based on the Multi-Core DSP TMS320C6670
p.1487
Blind Equalization Algorithm Based on the Orthogonal Wavelet Transform for SIMO Systems
p.1493
Wavelet Frequency Domain Constant Modulus Blind Equalization Algorithm Based on Fractional Lower Order Statistics
p.1497
Improvement of S/N Ratio of Seismic Data by Multi-Channel Wiener Filter Algorithm
p.1501
The Study on Cloud Computing Resource Allocation Method
p.1506
Monkey King Immune Evolutionary Algorithm
p.1514
Chinese Characters Knapsack Public Key Encryption Algorithm Research
p.1518
Bee Genetic Algorithm Based on Immune Evolution and Chaotic Mutation
p.1523

Improvement of S/N Ratio of Seismic Data by Multi-Channel Wiener Filter Algorithm

Article Preview

Abstract:

Noise reduction or cancellation is important for getting clear and useful signals. This paper deals with the implementation of the multi-channel wiener filter algorithm for noise suppression of seismic data. Known the velocity of reflection event, utilizes the resemblance of reflection signal in each seismic trace, the multi-channel wiener filter algorithm is effective in enhance reflection event and suppress the random noise. This algorithm is used to CDP gathers and the simulation shows the method is effective.

You might also be interested in these eBooks
Applied Mechanics, Mechatronics Automation & System Simulation View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 198-199)

Pages:

1501-1505

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.198-199.1501

Citation:

Cite this paper

Online since:

September 2012

Authors:

Xue Hao, Na Li, Lin Ren

Keywords:

Chaotic Oscillator, Multi-Channel Wiener Filter, Ricker Wavelet

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2012 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

References

[1] S Yu, X Cai and Y Su. Applied Geophysics, 1: 57-65 (1989).

Google Scholar

[2] S Chevrot. Geophys, 105: 21579-21590(2000).

Google Scholar

[3] Y K Tyapkin and A Robinson. Geophysical Prospecting, 51: 15-22(2003).

Google Scholar

[4] J Y Pei and H Liu. Geophysical evolution, (17): 91-95 (2002).

Google Scholar

[5] Y Li, B J Yang and X P Zhao. Geophys, 48(6): 1428-1433( 2005).

Google Scholar

[6] I F Jones and S Levy. Geophysical Prospecting, 35: 12-32 (1987).

Google Scholar

[7] S Mallat. IEEE Transactions on Pattern Analysis and Machine Intelligence, 14(7): 710-732 (1992).

Google Scholar

[8] P Linus. W Friedemann and P Zhou, Geophysics, 63: 1241-1247 (1998).

Google Scholar

[9] W K Lu. Journal of Geophysics and Engineering, Eng. 3: 28-34. (2006).

Google Scholar

[10] M T Dobrin. Mc Graw -Hill Book Co, New York, NY. (1976).

Google Scholar

[11] M T Taner, F Koehler and R E Sheriff. Geophysics, 44(6): 1041-1063(1979).

Google Scholar

[12] M T Taner and F Koehler. Geophysics, 34(6): 859-881 (1969).

Google Scholar

© 2025 Trans Tech Publications Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. For open access content, terms of the Creative Commons licensing CC-BY are applied.
Scientific.Net is a registered trademark of Trans Tech Publications Ltd.