extracting subsurface information based on extremely short...
TRANSCRIPT
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Extracting subsurface information based on
extremely short period of DAS recordings
16/09/2019
Yumin Zhao1, Gang Fang1 and Yunyue Elita Li1
1 Singapore Geophysics Project (SGP), National University of Singapore
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➢ Introduction
➢ Processing workflow
• PEF interpolation to remove the near-field traffic noise
➢ Interpreting the phase velocity
• Benchmarking with month-long DAS data
• Phase velocity changes using 100-second DAS data
• Average velocity changes using 100-second DAS data
➢ Conclusions
Outline
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(1) Real-time processing;• Early warnings of the potential hazards in the near-surface.
(2) Huge dataset management;• 8Tb/ week (Tribaldos et al., 2019)
One possible way to solve the problems is:
Using short period of DAS recordings to extract the reliable
subsurface information.
Introduction: challenges in Distributed Acoustic Sensing
(DAS)
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Introduction: Stanford DAS Array
DAS Array parameters
- 2 x 2.45 km fiber-optic cable
- 2 x 305 channels
- ~8 m sensor spacing
- 7 m gauge length
- Continuous recording
- 0-25 Hz digital recording
- OptaSense DAS (ODH 3.1)
Main road
(1) To prove that reliable information can be extracted using short period of DAS data;
(2) To see if there are any velocity changes before and after the basement
construction.
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Introduction: problem of using existing DAS data
Bandpass filtering Median and FK filtering
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Correlogram
0.25~10Hz
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➢ Introduction
➢ Processing workflow
• PEF interpolation to remove the near-field traffic noise
➢ Interpreting the phase velocity
• Benchmarking with month-long DAS data
• Phase velocity changes using 100-second DAS data
• Average velocity changes using 100-second DAS data
➢ Conclusions
Outline
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Synthetic data example Interpolated data by Prediction error
filter (PEF) interpolation
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Original dataGapped data
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Synthetic data example
Correlogram Phase Velocity Spectrum
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Synthetic data example
Correlogram Phase Velocity Spectrum
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Processing workflow
Raw 100-second noise record
Ambient – noise interferometry
(1) 0.25~10Hz bandpass filtering;
(2) Remove near– field traffic noise using PEF (prediction error filter);
(3) remove spikes using median filter;
(4) FK filtering.
Correlograms
Dispersion analysis
(1) Use Fourier transform followed by a phase shift and
stack along the offset to get the dispersion spectrum.
Dispersion curve(s)10
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Data after processing (without PEF interpolation) and its
correlogram
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Data after processing (with PEF interpolation) and its
correlogram
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With PEF interpolationWithout PEF interpolation
Phase velocity spectra: without and with PEF interpolation
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➢ Introduction
➢ Processing workflow
• PEF interpolation to remove the near-field traffic noise
➢ Interpreting the phase velocity
• Benchmarking with month-long DAS data
• Phase velocity changes using 100-second DAS data
• Average velocity changes using 100-second DAS data
➢ Conclusions
Outline
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Benchmarking with month-long DAS data
(Martin and Biondi, 2018; Martin, 2018; Spica et al., 2019)
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Benchmarking with month-long DAS data
Correlogram and phase velocity spectra using 100s data
Using “\” signal
(traffic noise and signal
from the quarry blast)
Using “/” signal
(traffic noise)
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Benchmarking with month-long DAS data
Using “\” signal
(traffic noise and signal
from the quarry blast)
Using “/” signal
(traffic noise)
(Martin and Biondi, 2018; Martin, 2018; Spica et al., 2019)
Blue: using 100-second data Blue: using 100-second data
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➢ Introduction
➢ Processing workflow
• PEF interpolation to remove the near-field traffic noise
➢ Interpreting the phase velocity
• Benchmarking with month-long DAS data
• Phase velocity changes using 100-second DAS data
• Average velocity changes using 100-second DAS data
➢ Conclusions
Outline
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![Page 19: Extracting subsurface information based on extremely short …sgpnus.org/presentations/SEG_2019/SEG_2019_Zhao Yumin_SDAS.pdf · 1 Singapore Geophysics Project (SGP), National University](https://reader036.vdocuments.site/reader036/viewer/2022071001/5fbd2ca47b5bad32bc76cfab/html5/thumbnails/19.jpg)
Phase velocity changes
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Correlograms using 100-second DAS data
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Phase velocity changes along the basement line
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Using “/” signal
(traffic noise and signal
from the quarry blast)
Using “\” signal
(traffic noise)
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➢ Introduction
➢ Processing workflow
• PEF interpolation to remove the near-field traffic noise
➢ Interpreting the phase velocity
• Benchmarking with month-long DAS data
• Phase velocity changes using 100-second DAS data
• Average velocity changes using 100-second DAS data
➢ Conclusions
Outline
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Average velocity changes
Reference
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Event Time Velocity (m/s)
2016/09/14 781
2016/09/19 819
2016/09/23 764
2016/09/29 832
2016/10/12 820
2016/10/27 826
2016/11/15 856
2016/11/21 819
2016/11/28 836
2016/12/15 817
Avg. Vel.: 817m/s
Std/Avg.Vel: 3.2%
Reference velocity
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Average velocity changes along the basement line
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Before construction
After construction
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Basement
Average velocity changes along the basement line
Red: Before construction
Green: After construction
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Basement
Velocity drop: 12.5%
867m/s 859m/s
721m/s
824m/s
830m/s 827m/s
Average velocity changes along the basement line
After construction
Before construction
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➢ Introduction
➢ Processing workflow
• PEF interpolation to remove the near-field traffic noise
➢ Interpreting the phase velocity
• Benchmarking with month-long DAS data
• Phase velocity changes using 100-second DAS data
• Average velocity changes using 100-second DAS data
➢ Conclusions
Outline
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Conclusions
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1. Using very short period of DAS data, we can extract the reliable information.
It may be a good solution to the existing challenges of DAS.
2. To remove the near-field traffic which is hard to be filtered and occurred at
isolated time and space, we first mute it and then interpolate the missing data
using PEF.
3. We have observed velocity changes due to the basement construction from
both dispersion curves and the average velocity profile.
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Acknowledgments
◆Thank Biondo Biondi for inspiring us working on this problem and
providing the data.
◆ Thank Elieen R. Martin for discussion.
◆ Thank our sponsor CambridgeSensing.
◆ Thank all developers of Madagascar.
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