Geophysical Technologies – i Geophysical Technologies MODULE
Patterns in Geophysical Data and Models - uni-potsdam.dePatterns in Geophysical Data and Models Jens...
Transcript of Patterns in Geophysical Data and Models - uni-potsdam.dePatterns in Geophysical Data and Models Jens...
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Patterns in Geophysical Data and Models
Jens Tronicke
Angewandte GeophysikInstitut für Geowissenschaften
Universität Potsdam
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Near-surface geophysics
• Using geophysical tools to explore the shallow subsurface
• Scale of interest: Tens of centimeters up to tens of meters
• Common techniques:- Magnetics- Seismics (reflection and refraction)- Electrical resistivity and EM induction methods- Georadar (GPR)- Borehole and logging techniques
• Typical applications are from the fields of…
- Geology - Engineering geology and geotechnics- Sedimentology - Hydrogeology- Soil sciences - Environmental sciences- Archaeology - Agriculture- Civil engineering - …
⇒ Research topics are directed towards developing and improving geophysical techniques for specific applications
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Patterns in Geophysical Data & Models
Data gathering(employing magnetics, seismics, electrics,
georadar, borehole techniques, …)
Processing(editing, analyzing, filtering, inversion, …In part specially developed techniques)
General flow of a geophysical experiment
Analyzing & enhancing specific features in the data space
Examples from seismic & georadar:
• Residual statics (cross-correlation)• Velocity analysis (coherency
analysis of CMP gathers)• NMO stacking • Coherency & dip filtering
• What is a pattern? - “Opposite of chaos” (Watanabe, 1985)- “A regular repetition of values in an image” (Sheriff, 2002)
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Patterns in Geophysical Data & Models
Data gathering(employing magnetics, seismics, electrics,
georadar, borehole techniques, …)
Processing(editing, analyzing, filtering, inversion, …In part specially developed techniques)
General flow of a geophysical experiment
Interpretation(generating earth models based on one
or several geophysical techniques)
Analyzing, extracting patterns & features in the model space, e.g.:
• Visualizing specific structures (faults, sedimentological units, archaeological features, …)
• Integrating all available models & data (including non-geophysical information, e.g., core data, geological background, geo-technical or hydrological data, …)
• What is a pattern? - “Opposite of chaos” (Watanabe, 1985)- “A regular repetition of values in an image” (Sheriff, 2002)
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Overview
Selected examples from geophysical data interpretation
• 3-D georadar data:
Attribute analysis to extract fault related features
• Multi-technique data sets:
Integrated earth models based on cluster analysis
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Overview
Selected examples from geophysical data interpretation
• 3-D georadar data:
Attribute analysis to extract fault related features
• Multi-technique data sets:
Integrated earth models based on cluster analysis
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(Coates, 2002)
Maleme Fault Zone, New Zealand
0
3
6
9
-30 -20 -10 0 10 20 30
y [m]
300
200
100
0
Tim
e [n
s]
Depth [m
]
NW SE
Central cut through migrated 3-D volume (x = 14 m)
• Goal of the study: Mapping shallow geometry of the fault zone and stratigraphic details within near surface sediments using 2-D and 3-D georadar
• 3-D data set (100 MHz antennas) covering an area of ~ 20 x 70 m
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Attribute analysis (3-D data)
Migrated data cube
Instantaneous phase:
Local gradients: dx and dy
Slope:
φ
cos ( )φ
22yx ddS +=
Emphasizing continuity/discontinuity
Emphasizing local changes (including information on directions)
• Post-processing sequence to visualize near vertical features
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Maleme Fault Zone: 3-D data
0
3
6
9
-30 -20 -10 0 10 20 30
y [m]
300
200
100
0Ti
me
[ns]
Depth
[m]
NW SE
Central cut through 3-D volume (x = 14 m)
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• Reflection A • Reflection B
0
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6
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-30 -20 -10 0 10 20 30
y [m]
300
200
100
0Ti
me
[ns]
Depth
[m]
NW SE
195 ns
Maleme Fault Zone: 3-D data
Central cut through 3-D volume (x = 14 m)
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Maleme Fault Zone: 3-D Daten
195 ns (~5.85 m)
NW SE
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Maleme Fault Zone: 3-D Daten
NW SE
195 ns (~5.85 m)
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Maleme Fault Zone: 3-D Daten
NW SE
195 ns (~5.85 m)
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Maleme Fault Zone: 3-D Daten
NW SE
195 ns (~5.85 m)
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Maleme Fault Zone: 3-D Daten
NW SE
195 ns (~5.85 m)
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Main discontinuities picked in 3-D slope cube
8.07.57.06.56.05.55.04.5
Depth [m]
Maleme Fault Zone: 3-D data
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Overview
Selected examples from geophysical data interpretation
• 3-D georadar data:
Attribute analysis to extract fault related features
• Multi-technique data sets:
Integrated earth models based on cluster analysis
![Page 18: Patterns in Geophysical Data and Models - uni-potsdam.dePatterns in Geophysical Data and Models Jens Tronicke Angewandte Geophysik Institut für Geowissenschaften ... Hydrogeology](https://reader033.fdocuments.in/reader033/viewer/2022060216/5f061c1b7e708231d41656ad/html5/thumbnails/18.jpg)
• Hydraulic relevant parameters (e.g., porosity, permeability)
• Internal structures
Groundwater table
Depth to bedrock
• Borders of the aquifer
Unsaturated sediments
Saturated sediments
Bedrock
Geophysical tools for aquifer characterization
For example: contaminant site characterization
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Crosshole georadar and seismic tomography
• Exploring the inter-borehole plane- Traveltime of the signals ⇒ velocity v- Amplitudes of the signals ⇒ attenuation α
• Scale of such experiments: several meters to tens of meters
• Resolution: ~ 1 m
• Sensitive to hydrological relevant parameters: water content, porosity, …
⇒ Often ideal complement to the more conventional hydrological field techniques
n sources
m receivers
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Synthetic example
How to generate an integrated model from different geophysical models ?
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Fuzzy c-means (FCM) cluster analysis
Parameter 1
Para
met
er 2
FCM cluster analysis⇒ mij : membership of data
point xj to cluster i
n-dimensional model space
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Parameter 1
Para
met
er 2
Fuzzy c-means (FCM) cluster analysis
z [m
]x [m]
FCM cluster analysis⇒ mij : membership of data
point xj to cluster i
n-dimensional model space
Defuzzification⇒ “hard“ cluster separation
(Colour saturation pro-portional to membership)
Zoned multi-parameter model including information
regarding its reliability
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Fuzzy c-means (FCM) cluster analysis
FCM cluster analysis⇒ mij : membership of data
point xj to cluster i
n-dimensional model space
Defuzzification⇒ “hard“ cluster separation
(Colour saturation pro-portional to membership)
Zoned multi-parameter model including information
regarding its reliability
Multi-prameter model:
: mean of p for cluster i
Spatial model of the petrophysical target
parameter
ip
Target parameter p(e.g. porosity-logs)
∑=
=c
iiijj pmp
1
z [m
]
x [m]
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Synthetic example
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Results FCM cluster analysis
• Colour saturation reflects reliability of the zonation
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Reconstructed porosity distributions
Three-cluster solution
Resampled input model
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Results cluster analysis
Velocity Attenuation Clustered model
Real data example: Boise Hydrogeophysical Research Site (BHRS)
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Membership functionfor cluster 1
(“low porosity cluster”)
Fuzzy c-means(after defuzzification)
Analyzing reliability of the zonation
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Fuzzy c-means(after defuzzification)
Petrophysical parameter reconstruction
Reconstructed porosity distribution
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Conclusions
• Pattern & feature recognition and related methods are fundamental steps in the geophysical workflow ⇒ Data processing⇒ Interpretation
• Examples illustrated the potential to …- extract specific features in a data set- integrate different data sets in a quantitative fashion
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Acknowledgements
• Deutsche Forschungsgemeinschaft (DFG)
• Schweizerischer Nationalfonds (SNF)
• P. Villamor (GNS, New Zealand)
• W. Barrash & M. Knoll (Boise State University)
• K. Holliger & H. Paasche (ETH Zürich)