shot-profile migration of gpr data jeff shragge, james irving, and brad artman geophysics...
DESCRIPTION
Seismic vs. GPR Data Common goal: Best possible image of subsurface reflectivity GPR Seismic Our aim: Transfer recent advances in multi- offset seismic migration techniques to GPRTRANSCRIPT
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Shot-profile migration of GPR data
Jeff Shragge, James Irving, and Brad Artman
Geophysics Department Stanford University
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Seismic vs. GPR Data
Seismic• Elastic waves• Multi-offset data• Redundancy
– multiple offsets• Localized source
GPR• EM waves• Single- or Multi-offset data• Redundancy
– repeated acquisition• Localized source
GPRSeismic
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Seismic vs. GPR Data
Common goal: Best possible image of subsurface reflectivity
GPRSeismic
Our aim: Transfer recent advances in multi-offset seismic migration techniques to GPR
![Page 4: Shot-profile migration of GPR data Jeff Shragge, James Irving, and Brad Artman Geophysics Department…](https://reader035.vdocuments.us/reader035/viewer/2022070616/5a4d1bf87f8b9ab0599ea79f/html5/thumbnails/4.jpg)
Agenda
• Rationale– Multi-offset, prestack, wave-equation imaging
• Imaging assumptions• Methodology
– Wavefield extrapolation– Shot-profile migration – Imaging condition– Angle-domain gathers
• Field data example
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Agenda
• Rationale– Multi-offset, prestack, wave-equation imaging
• Imaging assumptions• Methodology
– Wavefield extrapolation– Shot-profile migration – Imaging condition– Angle-domain gathers
• Field data example
![Page 6: Shot-profile migration of GPR data Jeff Shragge, James Irving, and Brad Artman Geophysics Department…](https://reader035.vdocuments.us/reader035/viewer/2022070616/5a4d1bf87f8b9ab0599ea79f/html5/thumbnails/6.jpg)
Acquisition: Why Multi-offset?• Vast majority of GPR work involves constant offset data
– collection, processing, interpretation
• Multi-offset systems are increasingly available
Pros• Improved:
– velocity estimation, reflector imaging, S/N ratio
• Affords better subsurface characterization– AVO/AVA studies, facies and property estimates
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Acquisition: Why Multi-offset?• Vast majority of GPR work involves constant offset data
– collection, processing, interpretation
• Multi-offset systems are increasingly available
Cons• More labor intensive
– Improving with new technology
• More computationally intensive
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Processing: Why pre-stack wave-equation?
• Pre-stack imaging is more robust– Post-stack migration assumes that NMO-transformed traces are a
good approximation of the zero-offset trace – Significant lateral velocity variation breaks NMO approximation– Maintain angular information for AVA studies
• Wave-equation migration is more accurate– No high-frequency approximation
• Wave-based not ray-based– Accurate over full range of frequencies– Naturally handle multipathing (unlike Kirchhoff migration)
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Agenda
• Rationale– Multi-offset, prestack, wave-equation imaging
• Imaging assumptions• Methodology
– Wavefield extrapolation– Shot-profile migration– Imaging condition– Angle-domain gathers
• Field data example
![Page 10: Shot-profile migration of GPR data Jeff Shragge, James Irving, and Brad Artman Geophysics Department…](https://reader035.vdocuments.us/reader035/viewer/2022070616/5a4d1bf87f8b9ab0599ea79f/html5/thumbnails/10.jpg)
Imaging Assumptions
t
x
Tx Rx
• Maxwell’s equations represented by 2-D scalar wave equation • Assumptions
– Geology is 2-D
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Imaging Assumptions
t
x
Tx Rx
• Maxwell’s equations represented by 2-D scalar wave equation • Assumptions
– Geology is 2-D and data is collected perpendicular to strike (TE mode)
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Imaging Assumptions
t
x
Tx Rx
• Maxwell’s equations represented by 2-D scalar wave equation • Assumptions
– Geology is 2-D and data is collected perpendicular to strike (TE mode)– Heterogeneities in earth are small such that gradients in EM constitutive parameters are negligible– Isotropic scattering, no antenna radiation patterns
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Governing EquationsGoverning 2-D scalar wave-equation in frequency (ω) domain
E = Electric field (component) v(x,z) = wavespeed
ε = dielectric permittivityμ = magnetic permeability σ = conductivity c = speed of lighti = sqrt(-1)
0Ez)v(x,
ωE∇2
22
σiω-εμcz)v(x,
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Agenda
• Rationale– Multi-offset, prestack, wave-equation imaging
• Imaging assumptions• Methodology
– Wavefield extrapolation– Shot-profile migration– Imaging condition– Angle-domain gathers
• Field data example
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Wavefield ExtrapolationWant solution to Helmholtz equation given boundary condition E(x,t,z=0)
2x2
2
z k- z)v(x,
ω±=k
Wave-equation dispersion relation
Δzikxx
ze ω)z,,E(kω)Δz,z,E(k
Wavefield propagates by advection - with solution
Ez)v(x,
ω-E∇ 2
22
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Shot-profile Migration• Directly mimics the experiment by migrating the shot-record• Define source and receiver wavefields• Source wavefield – Ss(x,t,z=0)
– Idealized point source at Tx location
– Propagated causally: exp(ikzΔz)– Subscript s is the Shot-profile index
• Receiver wavefield - Rs(x,t,z=0) – Rx multi-offset data from point source at Tx location
– Propagated acausally: exp(-ikzΔz)– Subscript s is the Shot-profile index
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At Z=0
Shot-profile Migration• Seed source and receiver wavefields
x
t t
x
Source Receiver
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Shot-profile Migration• Seed source and receiver wavefields• Propagate S and R to all depths using wavefield extrapolation
At Z=nΔZ
x
t t
x
Source Receiver
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Shot-profile Migration• Correlate Ss and Rs using imaging condition• Repeat for all shot profiles and sum
ω)z,(x,Rω)z,(x,Sz)I(x,ω
sss
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Angle-domain Gathers• Compute image domain equivalent of offset: h• Have to use more advanced imaging condition
• Reflectivity at opening angle γ computed after imaging
• kh = offset wavenumber kz = vertical wavenumber• Velocity Analysis: angle gathers are flat for correct velocity
ω)z,h,(xRω)z,h,(xSh)z,I(x,ω
sss
z
h
kk
tan γ
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Agenda
• Rationale– Multi-offset, prestack, wave-equation imaging
• Imaging assumptions• Methodology
– Wavefield extrapolation– Shot-profile migration– Imaging condition– Angle-domain gathers
• Field data example
![Page 22: Shot-profile migration of GPR data Jeff Shragge, James Irving, and Brad Artman Geophysics Department…](https://reader035.vdocuments.us/reader035/viewer/2022070616/5a4d1bf87f8b9ab0599ea79f/html5/thumbnails/22.jpg)
Field Data Example• 2-D multi-offset GPR data set - Vancouver, BC, Canada• Geology
– Sand and gravel glacial outwash deposit– Underlain by conductive marine clay with topographically varying surface
• Data Acquisition– PulseEkko 100 GPR system– 100 MHz antennas oriented perpendicular to survey line– 30 receivers/shot gather: 0.5m-15m at 0.5m intervals– 200 shot gathers at 0.5m shot spacing
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Unmigrated near-offset section
Top ofClay?
Diffractions
• Velocity model generated using semblance analysis on CMP gathers• RMS velocity picks converted into an interval velocity function• Water table ~ 4.5 meters
Layering?
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Migrated near-offset section
Top ofClay
ReflectorContinuity
CollapsedHyperbolas• Clearer image after hyperbola collapse
• More laterally continuous reflectors• Top of clay readily identifiable• On-lap reflectors in sand/gravel layer visible
On-lap reflectors
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ExtensionsAntenna radiation patterns
– Flexibility of Shot-profile allows for radiation patterns to be modeled into wavefields
Non-acoustic propagation– Wavefield extrapolation does not require acoustic propagation; apply
more physical operators
Anisotropic scattering– Angle gathers preserve the reflection angle information– Compensate with anisotropic scattering angle filters
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Conclusions• Prestack wave-equation methods can be extended to
GPR data
• Shot-profile migration is flexible– Incorporate radiation patterns in source and receiver wavefields– Incorporate more realistic scattering physics into imaging condition
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Acknowledgements
• Rosemary Knight– Stanford Environmental Geophysics
• Biondo Biondi– Stanford Exploration Project