Recent Updates
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Changing a Volume's Class
Updated on: Jun 08, 2021
It is possible to change the class that’s already been assigned to a volume. Follow these steps to assign a different class to a volume.
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Assigning Class (Overview)
Updated on: Jun 08, 2021
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Using the Horizon Propagator
Updated on: Jun 02, 2021
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Stacking
Updated on: May 27, 2021
<p>The Stacking process allows for the creation of 3D volumes from gather data. This process also supports 2D gathers. Based on the stacking algorithm, Insight calculates the number of samples between the inner and outer mutes (if these are provided) for each Z. Subsequently, a simple arithmetic ... -
Horizon Operations in Map View
Updated on: May 21, 2021
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Classes and Colourbars Overview
Updated on: May 21, 2021
<p>In Insight, most display settings are grouped in generic and reusable 'Classes', which you can create, view and/or edit in the Class tab in the Control Panel. <br />Every class comprises a colourbar, minimum/maximum interpolation, wiggle and track view settings.</p> <p>You can associate a cl... -
Wavelet Transform
Updated on: May 12, 2021
You can smooth 2D/3D volumes including velocity and other low frequency volumes using the Volume Smoothing process. This process uses the damped least-squares method to suppress derivatives in every spatial dimension of the input volume.
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V0 from Delta and Isotropic Depth Mig Velocities
Updated on: May 11, 2021
You can use the Volume Combining process to combine a list of 2D or 3D volumes and create a single 3D volume. The output volume will be generated based on the defined extents, which default to an area that covers all the input volumes.
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Hi-Res Radon Transform
Updated on: May 11, 2021
Once you’ve generated dips (see Dips), you can create the edges. Edges highlight the areas where there is a change in the movement and direction of the vectors in the dips volume. For example, displaying a possible fault in the seismic data. It is a way to visualise discontinuity.
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Tau-P Mute
Updated on: May 10, 2021
You can smooth 2D/3D volumes including velocity and other low frequency volumes using the Volume Smoothing process. This process uses the damped least-squares method to suppress derivatives in every spatial dimension of the input volume.