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Chromatic Aberration, noise, and Shannon capacity
The camera chosen for the plot below has significant Chromatic Aberration. The Noise spectrum and
Shannon capacity plots, shown below beneath Chromatic Aberration,
are plotted only if the Noise Spectrum and Shannon capacity (in CA plot) checkbox in the Imatest SFR input dialog box has been checked. It is unchecked by default.
| Upper plot: Chromatic Aberration |
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| More about this plot can be found in the page on Chromatic Aberration. Much of this plot is grayed out if the ROI is too close to the center for reliable CA measurements (less than 30% of the distance to the corner). |
Red, Green, and Blue
lines (bold) |
Edge profiles for the R, G, and B channels (original, uncorrected). (Standardized sharpening is not used for chromatic aberration.) |
| Black line (dashed) |
Edge profile for the luminance (Y) channel. |
| Dashed magenta line (bold) |
The difference between the highest and lowest channel levels. (All channels are normalized to go from 0 to 1.) The visible chromatic aberration is proportional to the area under this curve. |
| Left column text |
Input settings: Plot title, profile orientation (Horizontal profile corresponds to a vertical edge, etc.), image dimensions (WxH), total megapixels, gamma, ROI size, ROI location. |
Right column text
(results) |
| 10-90% rise distance (original; uncorrected) in pixels and rises per picture height (PH). |
| CA (area): Chromatic aberration area in pixels. An indicator of the severity of CA. The area between the channels with the highest and lowest levels. In units of pixels because the x-axis is in pixels and the y-axis is normalized to 1. Explained in the page on Chromatic aberration. Meaning (now obsolete): Under 0.5; insignificant. 0.5-1: minor; 1-1.5: moderate; 1.5 and over: serious. |
| CA: Chromatic aberration as a percentage of center-to-corner distance. A better indicator than pixels (above). Equal to 100 * (CA in pixels) / (distance from center in pixels), corrected for the edge angle. Relatively independent of the ROI location because CA tends to be proportional to the distance from the image center. It is also independent of the number of pixels in the sensor. Explained in the page on Chromatic aberration. Appxoximate meaning: Under 0.04; insignificant. 0.04-0.08: minor; 0.08-0.15: moderate; over 0.15: serious. |
| CA (crossing): Chromatic aberration based on the edge centers (where the edges cross 0.5). This is generally smaller than CA (equiv.) and also less indicative of the visibility of the CA. This measurement can be very different from CA (area) due to the effects of demosaicing. It is usually very close when Bayer RAW images are analyzed. |
| R-G, B-G :Red-Blue and Red-Green spacings in percentage of center-to-corner distance. Useful for correcting CA, especially when applied prior to demosaicing. Displayed only in Imatest Pro. |
| Average pixel levels in the dark and light areas. Clipping can occur if they are too close to 0 or 255. |
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Below
the
plot |
These items are only displayed if the Noise Spectrum and Shannon capacity box is unchecked.
Noise in the dark and light
areas, described below.
A thumbnail of the image showing the region of interest (ROI). |
Lower part of figure: Noise and Shannon information capacity plots
for for the selected channel, normally luminance (Y)
Shannon capacity is an experimental measurement that is strongly affected by signal processing (especially sharpening and noise reduction). It is not a reliable way of quantifying camera performance. |
Noise spectrum plot
(left side) |
The noise spectrum plot
is somewhat experimental. Bayer interpolation causes the noise spectrum to roll off to about 0.5 at 0.5 Cycles/Pixel; noise reduction causes additional rolloff.
Low to middle frequency noise components tend to be more visible. The spiky light cyan
and green curves represent two different
directions.
The thick black line is the smoothed average of the two. The red line is a third order polynomial fit to the noise. |
Noise spectrum and Shannon capacity are only plotted if the selected region is large enough to provide reasonable noise statistics.
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Shannon capacity plot
(right sde) |
Shannon capacity C
as a function of signal S (closely related to image Contrast), where S is expressed as the percentage of the difference between the white
and black regions of the target (Sstd ). A Contrast of 100% represents a fairly contrasty image, 10% represents
a low contrast image, and 1% represents a smooth area like skies. These numbers
are only meaningful for comparing digital cameras. They should be used with caution because signal processing, especially noise reduction, has a strong effect on Shannon Capacity. There is
a table of results in the page on Shannon
information capacity. |
| Text at bottom |
| Noise in the dark and light
areas, and the mean of the two. Measured after the input data has been
linearized (corrected for the gamma encoding). Expressed as a fraction
of the difference between the average levels of the light and dark areas (Sstd ).
This difference is the standard signal, S, used in the calculation of Shannon
information capacity. The noise measurements in Q-13 Stepchart and Colorcheck are more reliable and useful. |
| Signal-to-noise ratio S/N
for the mean of the light and dark areas. This is the inverse of the noise
for the mean of the light and dark areas, above. Used in the calculation
of Shannon capacity. |
| Shannon
information capacity of the camera for signal S =
Sstd,
measured in bits per pixel and megabytes total. This is an approximate
calculation that provides an estimate of overall image quality for moderately
contrasty images, as affected by sharpness and noise. |
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