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Nathan Babcock and Robert R. Stewart Department of Earth and Atmospheric Sciences University of Houston.

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Presentation on theme: "Nathan Babcock and Robert R. Stewart Department of Earth and Atmospheric Sciences University of Houston."— Presentation transcript:

1 Nathan Babcock and Robert R. Stewart Department of Earth and Atmospheric Sciences University of Houston

2 What is air-noise? – Near surface model – Ground-to-air conversion How does air-noise affect a geophone? – Distance dependency – Angular dependency – Frequency dependency Filter methods – Previous work – Real-time filter – Post-processing filter – Filter results on lab data Conclusions What is air-noise? – Near surface model – Ground-to-air conversion How does air-noise affect a geophone? – Distance dependency – Angular dependency – Frequency dependency Filter methods – Previous work – Real-time filter – Post-processing filter – Filter results on lab data Conclusions

3 (Shields, 2005)

4 Near surface model

5 Direct travel

6 Direct transmission Direct travel (Bass et al., 1980) (Sabatier et al., 1986a)

7 Direct transmission Direct travel Ground roll conversion (Press and Ewing, 1951)

8 Direct transmission Direct travel Ground roll conversion Slow wave conversion (Sabatier et al., 1986b)

9 Amplitude Distance relationship

10 Amplitude Angular relationship Vertical component RMS response Microphone RMS response Inline component RMS response Crossline component RMS response Sensitive to ~210° Sensitive to ~0° & 180 ° Sensitive to ~270° Omnidirectional

11 Amplitude Angular relationship Vertical component RMS response Microphone RMS response Inline component RMS response Crossline component RMS response Sensitive to ~210° Sensitive to ~0° & 180 ° Sensitive to ~270° Omnidirectional

12 Amplitude Frequency relationship

13 Filtering in the time-frequency domain (Gabor filter) Create null mask from microphone record Multiply geophone record by null mask Filtering in the time-frequency domain (Gabor filter) Create null mask from microphone record Multiply geophone record by null mask (After Alcudia, 2009)

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17 Air-noise filters must handle variability in noise source: – Distance – Angle – Frequency The post-processing filter is more effective than the real-time filter – Increased computing power and processing time Air-noise filters must handle variability in noise source: – Distance – Angle – Frequency The post-processing filter is more effective than the real-time filter – Increased computing power and processing time

18 Alcudia, A. D., 2009, Microphone and geophone data analysis for noise characterization and seismic signal enhancement: M.Sc thesis, University of Calgary. Bass, H. E, L. N. Bolen, D. Cress, J. Lundien, and M. Flohr, 1980, Coupling of airborne sound into the earth: Frequency dependence: The Journal of the Acoustical Society of America, 67, 1502. Press, F., and M. Ewing, 1951, Ground roll coupling to atmospheric compressional waves: Geophysics, 16, 416. Sabatier, J. M., H. E. Bass, and L. N. Bolen, 1986a, The interaction of airborne sound with the porous ground: The theoretical formulation: The Journal of the Acoustical Society of America, 79, 1345. Sabatier, J. M., H. E. Bass, and L. N. Bolen, 1986b, Acoustically induced seismic waves: The Journal of the Acoustical Society of America, 80, 646. Shields, D. F., 2005, Low-frequency wind noise correlation in microphone arrays: The Journal of the Acoustical Society of America, 117, 3489. Photo credits: Alfred Borchard, W. Beate, István Benedek Alcudia, A. D., 2009, Microphone and geophone data analysis for noise characterization and seismic signal enhancement: M.Sc thesis, University of Calgary. Bass, H. E, L. N. Bolen, D. Cress, J. Lundien, and M. Flohr, 1980, Coupling of airborne sound into the earth: Frequency dependence: The Journal of the Acoustical Society of America, 67, 1502. Press, F., and M. Ewing, 1951, Ground roll coupling to atmospheric compressional waves: Geophysics, 16, 416. Sabatier, J. M., H. E. Bass, and L. N. Bolen, 1986a, The interaction of airborne sound with the porous ground: The theoretical formulation: The Journal of the Acoustical Society of America, 79, 1345. Sabatier, J. M., H. E. Bass, and L. N. Bolen, 1986b, Acoustically induced seismic waves: The Journal of the Acoustical Society of America, 80, 646. Shields, D. F., 2005, Low-frequency wind noise correlation in microphone arrays: The Journal of the Acoustical Society of America, 117, 3489. Photo credits: Alfred Borchard, W. Beate, István Benedek

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