Image Loading

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Navigation:  Processing using Combined Matching Layout > Processing Overview > Initialize/Match page >

Image Loading

Image Loading and Closing

As an alternative to loading from the database in the DB Load page the Initialize/Match page provides two loading buttons.

The Reference series is loaded into the image tool in the upper right corner by the Load Reference button.

The Reslice (or input) series (or several series at once, here FDG, FET and FCH) to be registered are loaded to the upper left image tool by the Load Input button. At later times, additional studies can be incrementally loaded if the need arises. To avoid overwriting of previously loaded input studies, the pushpin button next to the Input button must be activated.
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Note the study selection top left which allows switching between different input series.

Image loading and data management can also be done with the taskbar.

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Load reference and input images. The format can be selected with the small arrow below the button. The Pushpin button serves for enabling the input image appending mode.

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Interchange the role of the reference and the current input image. All images will be resliced to the new reference after the interchange.

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Close all image series in the PFUS tool, including any image algebra results.

Input Data Selection

When loading several images at once or appending input images, the PFUS tool has to handle multiple reslice series. On the Initialize/Match page it arranges them in a stacked arrangement as illustrated below. Please use the indicated buttons to switch between the different series. Note that the series switching in the Input and in the CoRegistered area are synchronized.

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Input Data Processing

In some cases it is helpful to process the raw input images before starting the actual matching using the image processing tools illustrated below.

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If the Replace box is not checked, an additional image series is created which is exactly aligned with the original data. Once a matching transformation has been determined with the secondary image series, it can be easily applied to the original raw data.

Typical applications are the smoothing of noisy images or the time averaging of a part of a dynamic series.