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Import multiple SEG-2 files at the same time as shown on the right.
The program will ask if the original source/receiver (SR) setup
(if encoded during data acquisition) is to be displayed.
The program will ask if the original source/receiver (SR) setup
(if encoded during data acquisition) is to be displayed.
Then, the SR chart will be displayed as shown below. To replace the original setup by ignoring it, click "Yes" to encode the new setup by
running the SR setup module.
running the SR setup module.
If the original SR setup is correct, then you can save imported
files as a single SR-coded file [for example, "SeismicData(SR).
dat"] by choosing "No". By choosing “No,” the SR setup will
explain that the source/receiver setup will be bypassed and the
saved file will be automatically passed to the next step
("Dispersion Image Generation").
files as a single SR-coded file [for example, "SeismicData(SR).
dat"] by choosing "No". By choosing “No,” the SR setup will
explain that the source/receiver setup will be bypassed and the
saved file will be automatically passed to the next step
("Dispersion Image Generation").
2. Source/Receiver (SR) Setup
Select "Run Wizard" to encode source/receiver (SR) configuration to each record of the imported files. Refer to the PS User Guide ("Source-Receiver
the next step ("Dispersion Image Generation").
Select "Run Wizard" to encode source/receiver (SR) configuration to each record of the imported files. Refer to the PS User Guide ("Source-Receiver
the next step ("Dispersion Image Generation").
3. Dispersion Image Generation
Click the "Run Dispersion Image" button to start the process with all default parameters. Refer to PS User Guide ("Dispersion Image Generation")
for information about control parameters included in the "Options..." of the dialog.
Click the "Run Dispersion Image" button to start the process with all default parameters. Refer to PS User Guide ("Dispersion Image Generation")
for information about control parameters included in the "Options..." of the dialog.
The output will be saved as [*(SR)(ActiveOT).DAT] and automatically passed to the next step ["Dispersion Curve (M0) Extraction"].
4. Dispersion Curve (M0) Extraction
At the beginning of the process, the program will ask to stack the multiple number of input dispersion images if they all have the same surface
locations. Click "Yes" to stack them and save the stacked image as a separate image file [*(SR)(ActiveOT)(VStack).DAT].
At the beginning of the process, the program will ask to stack the multiple number of input dispersion images if they all have the same surface
locations. Click "Yes" to stack them and save the stacked image as a separate image file [*(SR)(ActiveOT)(VStack).DAT].
The stacked image then will be displayed as shown below. Refer to the PS User Guide ["Dispersion Curve (M0) Extraction"] for information about
how to extract the curve.
how to extract the curve.
5. Inversion (Automatic 1st Phase)
Click "Run" to launch the automatic inversion process with all default parameters. Refer to PS User Guide ["Inversion (1-D Profile)"] for information
about all the parameters included in the "Options..." of the dialog.
Click "Run" to launch the automatic inversion process with all default parameters. Refer to PS User Guide ["Inversion (1-D Profile)"] for information
about all the parameters included in the "Options..." of the dialog.
At the end of the process, the output 1-D (depth) shear-wave velocity (Vs) profile will be displayed as shown below. If the displayed profile shows a
realistic velocity variation with a relatively high match between the measured and modeled M0 curves (e.g., ≥ 80%), then this completes the process.
Otherwise, you can proceed to perform another round of advanced inversion process that starts from the current velocity (Vs) profile as an initial
realistic velocity variation with a relatively high match between the measured and modeled M0 curves (e.g., ≥ 80%), then this completes the process.
Otherwise, you can proceed to perform another round of advanced inversion process that starts from the current velocity (Vs) profile as an initial
1. Importing Field Files in SEG-2 Format
Go to "Process" → "2D S-Velocity (Vs) Profile From" → "Seismic Field Data in SEG-2."
Import multiple SEG-2 files at the same time as shown on the right.
The program will ask if the original source/receiver (SR) setup (if
encoded during data acquisition) is to be displayed.
The program will ask if the original source/receiver (SR) setup (if
encoded during data acquisition) is to be displayed.
Then, the SR chart will be displayed as shown below. To replace the original setup by ignoring it, click "Yes" to encode the new setup by running the
SR setup module.
SR setup module.
If the original SR setup is correct, then you can save imported files as a single SR-coded file [for example, "SeismicData(SR).dat"] by choosing "No".
By choosing “No,” the program will explain that the source/receiver setup will be bypassed and the saved file will be automatically passed to the next
step ("Dispersion Image Generation").
By choosing “No,” the program will explain that the source/receiver setup will be bypassed and the saved file will be automatically passed to the next
step ("Dispersion Image Generation").
Select "Run Wizard" to encode source/receiver (SR) configuration to each record of the imported files. Refer to the PS User Guide ("Source-Receiver
(SR) Setup") for information about how to run it. The output will be saved as [*(SR).DAT] at the end of the setup, and will be automatically passed to
the next step ("Dispersion Image Generation").
3. Dispersion Image Generation
Click the "Run Dispersion Image" button to start the process with all default parameters. Refer to PS User Guide ("Dispersion Image Generation")
for information about control parameters included in the "Options..." of the dialog.
Click the "Run Dispersion Image" button to start the process with all default parameters. Refer to PS User Guide ("Dispersion Image Generation")
for information about control parameters included in the "Options..." of the dialog.
The output will be saved as [*(SR)(ActiveOT).DAT] and automatically passed to the next step ["Dispersion Curve (M0) Extraction"].
4. Dispersion Curve (M0) Extraction
At the beginning of this process, the first dispersion image will be displayed as shown below. Refer to the PS User Guide ["Dispersion Curve (M0)
Extraction"] for information about how to extract the fundamental-mode (M0) curves. After all dispersion curves are extracted and saved, they will be
automatically passed to the next step ("Inversion").
At the beginning of this process, the first dispersion image will be displayed as shown below. Refer to the PS User Guide ["Dispersion Curve (M0)
Extraction"] for information about how to extract the fundamental-mode (M0) curves. After all dispersion curves are extracted and saved, they will be
automatically passed to the next step ("Inversion").
5. Inversion
explanations about all the parameters included in the "Options..." of the dialog.
explanations about all the parameters included in the "Options..." of the dialog.
At the end of the inversion process, the following two types of output will be saved and then automatically displayed within the same form (under
"Display 1" and "Display 2" tabs); a 2-D shear-wave velocity (Vs) cross section map [*(2DVs).TXT], and the corresponding 2-D Vs confidence map
[*(2DConf).TXT], respectively, as shown below. The confidence map shows a distribution of relative reliability in inversion results (Vs values) so that
it can be used as a means to judge credibility of velocity values in the cross section map that may change from one place to another.
"Display 1" and "Display 2" tabs); a 2-D shear-wave velocity (Vs) cross section map [*(2DVs).TXT], and the corresponding 2-D Vs confidence map
[*(2DConf).TXT], respectively, as shown below. The confidence map shows a distribution of relative reliability in inversion results (Vs values) so that
it can be used as a means to judge credibility of velocity values in the cross section map that may change from one place to another.
<2-D Vs Cross Section>
<2-D Vs Confidence Map>
Park Seismic LLC, Shelton, Connecticut, Tel: 347-860-1223, Fax: 203-513-2056, Email: parkseis@parkseismic.com
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- See user guide and watch video tutorial.
Generating a 1-D Shear-Wave Velocity (Vs) Profile
1. Importing Field Files in SEG-2 Format
Go to "Process" → "1D S-Velocity (Vs) Profile From" → "Seismic Field Data in SEG-2."
