2. Selecting Data

2. Selecting Data
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SciQt integrates with various third party data repositories. This should be transparent to you and is dependent on how the software was launched. To use the Coloured Inversion application to design an operator it is first necessary to analyse the seismic and well data spectra. This is achieved by loading some seismic trace data and well log impedance data in time. Pop up the "Select Input Data" dialog by either clicking the Input Seismic and Well data... menu item under the Tools menu bar or by clicking the icon.

The table below shows both tabs of the Select Input Data dialog with an example of data selected for Coloured Inversion operator design. Seismic Coloured Inversion is data driven which means that the complete analysis and design of the operator (or as far as possible) is performed as soon as the data is selected/loaded or updated.

2.1. Input Seismic

With the "Select Input Data Dialog" displayed click the "Input Seismic" tab (default) to select the input seismic data to be used. The SciQt will connect with various data repositories depending on the environment in which the Coloured Inversion software is being run. It attempts to do this in such a manner that the Geoscientist need know only minimal information to be able to connect seamlessly with the seismic database. However, as data repositories from third party vendors use different techniques to store data, there will inevitably be some differences with the specific seismic selection mechanism.

Select Input Data Dialog (Input Seismic tab)	List of steps to generate seismic trace spectra
	Selected Seismic This control displays the pre-selected 3D seismic data volume and is thus inactive. Note: if data was not pre-selected then the Selected Seismic label would be a Select Seismic... button allowing you to pop-up a seismic volume selector. 3D Survey Area Trace data for the spectral analysis can be selected from either the full 3D survey area or from a sub-area using the In-line/X-line Start and End input fields. By default the full area is selected. Load Seismic Clicking the Load Seismic button causes the random set of traces over the 3D Survey Area to be loaded for spectral analysis. Set Time Range The aim is to design a Coloured Inversion operator for the zone of interest (target). It is therefore desirable to time gate the selected traces prior to generating trace spectra. Ideally you should use a well defined interpreted horizon in the target zone to guide the seismic trace time gate. In this manner, the various gated traces should have sample values over a similar geology. Click Select Horizon... to pop up a horizon select dialog, then select horizon and then click Close button to return. Click Horizon in Range radio button and specify the Relative Start and Relative End values. A negative number is a relative time above the horizon (i.e. shallower) and positive number is a relative time below the horizon (i.e. deeper). The aim is to select a time gate trace which has a gate length within the range 500 - 1000 msec. The user supplied values here are accepted, with the chart area updating, when you either press the Return or Enter key, press the Tab to move to the next widget, or mouse click on a different widget. Note: If no horizon data is available and if seismic volume is relatively flat, then using an absolute sub range would be adequate. If it is not flat or the geology changes considerably over the 3D survey area then the selection of a smaller 3D Survey Area might be desirable.

Select Input Data Dialog (Input Seismic tab)

List of steps to generate seismic trace spectra

Selected Seismic
This control displays the pre-selected 3D seismic data volume and is thus inactive.
Note: if data was not pre-selected then the Selected Seismic label would be a Select Seismic... button allowing you to pop-up a seismic volume selector.
3D Survey Area
Trace data for the spectral analysis can be selected from either the full 3D survey area or from a sub-area using the In-line/X-line Start and End input fields. By default the full area is selected.
Load Seismic
Clicking the Load Seismic button causes the random set of traces over the 3D Survey Area to be loaded for spectral analysis.
Set Time Range
The aim is to design a Coloured Inversion operator for the zone of interest (target). It is therefore desirable to time gate the selected traces prior to generating trace spectra. Ideally you should use a well defined interpreted horizon in the target zone to guide the seismic trace time gate. In this manner, the various gated traces should have sample values over a similar geology.
Click Select Horizon... to pop up a horizon select dialog, then select horizon and then click Close button to return.
Click Horizon in Range radio button and specify the Relative Start and Relative End values. A negative number is a relative time above the horizon (i.e. shallower) and positive number is a relative time below the horizon (i.e. deeper). The aim is to select a time gate trace which has a gate length within the range 500 - 1000 msec. The user supplied values here are accepted, with the chart area updating, when you either press the Return or Enter key, press the Tab to move to the next widget, or mouse click on a different widget.
Note: If no horizon data is available and if seismic volume is relatively flat, then using an absolute sub range would be adequate. If it is not flat or the geology changes considerably over the 3D survey area then the selection of a smaller 3D Survey Area might be desirable.

2.2. Input Well Log

With the "Select Input Data Dialog" displayed click the "Input Well Log" tab to select the well log data to use. The SciQt software supports reading acoustic impedance in time from ASCII files or by connection to a well log data repository. Here we shall assume you will normally wish to obtain data from OpenWorks well log data repository and we will describe this route. If you wish to load from ASCII files then please refer to the full User Manual. Currently, GeoFrame users have no option to load AI data via a database route.

Select Input Data Dialog (Input Well Log tab)	List of steps to generate well log spectra
	Load Wells Click the Select Wellset... push button to pop-up a dialog to allow you to select a Wellset. With your chosen Wellset, acoustic impedance log curves in time will automatically be loaded from OpenWorks. It is assumed that acoustic impedance log curves in time will have the characters "imp" (upper or lower case) somewhere within the curve name field or remark field. If, for a given well, the AI log curve doesn't meet the assumed naming convention, then the user can still select AI log curves manually. This is achieved by right clicking on the well name after first attempting to load the wells automatically. Note the Load Wells push button will change to a Reload Wells push button after the initial automatic selection. Right clicking will pop-up a Select AI Log... menu item. Selecting this item will pop-up a dialog which lists the available logs allowing you to choose an AI log curve however it is named. This data in the time domain can be displayed on one or more Main Window charts. By default the AI data (in time) is displayed on the "Log Input (time domain)" and "Log Input Detrend (time domain)" charts. As each AI log curve is loaded its amplitude spectrum is also immediately calculated and displayed by default on the "Individual Wells" chart. The central area of the "Select Input Data" dialog (Input Well Log tab) to the right shows the available AI log curves for each well. You can deselect wells and/or log curves by clicking on the appropriate [tick box]. Set Time Range Again, our aim is to design a Coloured Inversion operator for the zone of interest (target). It is therefore desirable to time gate the selected traces prior to generating well log spectra. Ideally ,you should use a well defined interpreted horizon in the target zone to guide the well log trace time gate. In this manner, the various gated traces should have sample values over a similar geology. Click Select Horizon... to pop up a horizon select dialog, select horizon and then click Close button to return. Click Horizon in Range radio button and specify the Relative Start and Relative End values. A negative number is a relative time above the horizon (i.e. shallower) and a positive number is a relative time below the horizon (i.e. deeper). The aim is to select a time gate which has a gate length within the range 500 - 1000 msec. The user supplied values here are accepted, with the chart area updating, when you either press the Return or Enter key, press the Tab to move to the next widget, or mouse click on a different widget.

Select Input Data Dialog (Input Well Log tab)

List of steps to generate well log spectra

Load Wells
Click the Select Wellset... push button to pop-up a dialog to allow you to select a Wellset. With your chosen Wellset, acoustic impedance log curves in time will automatically be loaded from OpenWorks. It is assumed that acoustic impedance log curves in time will have the characters "imp" (upper or lower case) somewhere within the curve name field or remark field. If, for a given well, the AI log curve doesn't meet the assumed naming convention, then the user can still select AI log curves manually. This is achieved by right clicking on the well name after first attempting to load the wells automatically. Note the Load Wells push button will change to a Reload Wells push button after the initial automatic selection.
Right clicking will pop-up a Select AI Log... menu item. Selecting this item will pop-up a dialog which lists the available logs allowing you to choose an AI log curve however it is named.
This data in the time domain can be displayed on one or more Main Window charts. By default the AI data (in time) is displayed on the "Log Input (time domain)" and "Log Input Detrend (time domain)" charts. As each AI log curve is loaded its amplitude spectrum is also immediately calculated and displayed by default on the "Individual Wells" chart.
The central area of the "Select Input Data" dialog (Input Well Log tab) to the right shows the available AI log curves for each well. You can deselect wells and/or log curves by clicking on the appropriate [tick box].
Set Time Range
Again, our aim is to design a Coloured Inversion operator for the zone of interest (target). It is therefore desirable to time gate the selected traces prior to generating well log spectra. Ideally ,you should use a well defined interpreted horizon in the target zone to guide the well log trace time gate. In this manner, the various gated traces should have sample values over a similar geology.
Click Select Horizon... to pop up a horizon select dialog, select horizon and then click Close button to return.
Click Horizon in Range radio button and specify the Relative Start and Relative End values. A negative number is a relative time above the horizon (i.e. shallower) and a positive number is a relative time below the horizon (i.e. deeper). The aim is to select a time gate which has a gate length within the range 500 - 1000 msec. The user supplied values here are accepted, with the chart area updating, when you either press the Return or Enter key, press the Tab to move to the next widget, or mouse click on a different widget.

With the seismic and well data loaded the SciQt application will complete all the various steps to generate a Coloured Inversion operator. However, with this data driven approach the initial derived Coloured Inversion operator may not be optimum. As such, it may be necessary for you to perturb some of the design parameters before saving the operator. Apart from controlling desired data and data ranges, all other design parameters are accessible via "Design Operator Dialog" (see section below) and the "Advanced Controls" dialog

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