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Headwave's AVO Crossplot
http://www.headwave.com/imagecatalogue/customimage/226/960/640
The picture shows the AVO Crossplot of Intercept and Gradient result from the AVO attribute algorithm in Headwave. The result of the crossplot is added as an attribute along the upper horizon. The lower horizon shows the original seismic amplitude as attribute where only the high min/max amplitudes are visible. The crossline shows the original seismic blended with the seismic velocity.
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Headwave's AVO Crossplot
http://www.headwave.com/imagecatalogue/customimage/228/960/640
The picture shows a typical AVO workflow to the right where Intercept and Gradient volume is input to the AVO Attribute Math, creating the Intercept*Gradient volume, shown in 3D as the green subvolume. The workflow also shows the easy creation of angle gathers, angle volumes and angle volume math. In the 3D window, the inline shows the far minus near angle stack result and the crossline shows the far angle stack
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Headwave's AVO Crossplot
http://www.headwave.com/imagecatalogue/customimage/225/960/640
The picture shows the new AVO crossplot and the result of crossplotting intercept vs gradient. The results are shown in the 3D window as a cube, without using any polygons.
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Headwave Data Enhancement & Conditioning
http://www.headwave.com/imagecatalogue/customimage/230/960/640
The picture shows a seismic gather before and after mute in a 2D section window, flipped towards each other (mute to the left) and in 3D where the gather to the right shows the muted result. The gather timeslice in the 3D window belongs to the original unmuted data.
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Headwave Data Enhancement & Conditioning
http://www.headwave.com/imagecatalogue/customimage/231/960/640
The picture shows the job flow canvas with a workflow showing how to create angle gathers and user defined angle stacks. In addition, the offset gathers are shown with original amplitudes and angles as the attribute and then the result after being converted to angle gather. The lower section shows the full angle stack.
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Headwave Data Enhancement & Conditioning
http://www.headwave.com/imagecatalogue/customimage/235/960/640
The picture shows an inline with two gathers attached to it, in a 3D window and a 2D Section Window. To QC the velocity, find out whether the velocity is conform with structure or not, the blend option in Headwave can be used. If the velocity is not conform with structure, open the prestack gather in this position and check out why.
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Headwave Core
http://www.headwave.com/imagecatalogue/customimage/233/960/639
The picture shows a poststack inline in black/white with seven prestack gathers displayed along it; six having only extreme min/max values visible and one showing all amplitudes. A horizon slice showing the seismic amplitude attribute is displayed at the correct horizon time and a well is displayed with markers.
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Headwave Core
http://www.headwave.com/imagecatalogue/customimage/234/960/639
The picture shows a seismic inline with the Cosine of Phase attribute and a crossline and timeslice with the RMS Amplitude. Attached to the inline is an offset gather and a gather timeslice showing the amplitudes with offset. The shallowest volume shows the result from the sweetness algorithm.
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Headwave Core
http://www.headwave.com/imagecatalogue/customimage/236/960/639
The picture shows an inline where the seismic amplitudes are blended with a velocity field, in color. The crossline is showing the original seismic amplitude and so is the gather which is linked to the inline. In addition there are two seismic horizons showing the time attribute and one well with markers.
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Headwave Petrel Connectivity
http://www.headwave.com/imagecatalogue/customimage/224/960/639
The picture shows a Headwave workflow where a mid-angle stack is created on the fly in Headwave,
then cached when the parameters have been optimized to create a good interpretation volume. This volume can be transferred easily to Petrel™ for interpretation using the Petrel™ link option in Headwave.
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Headwave Petrel Connectivity
http://www.headwave.com/imagecatalogue/customimage/223/960/639
The picture shows the optimized angle cube and the original seismic cube transferred to Petrel™ for interpretation.
