OECF MEASUREMENT----OECF 36 Chart (following ISO 14524/15739)

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OECF MEASUREMENT
The opto electronic conversion function (described in ISO 14524) is one the most important characteristics of
a digital camera. It describes how the camera transforms luminance values of an object or illuminance values
on the sensor plane into digital code values in the digital image.
The OECF is typically measured from a grey scale. Depending on the type of camera different versions of
test charts are used. The specification of TE264 D is derived from ISO 14524. It is a test chart with a circular
arrangement of the grey levels. These may be affected by lens and camera related shading but since most
optical systems are rotationally symmetric they will fall on the same shading level for all patches.
ISO 14524 describes how the densities to manufacture the chart are calculated. The values depend on the
desired dynamic range of the chart. In order to measure a camera the contrast of the chart should exceed
the dynamic range of the camera under test. This is the reason why typical contrast ranges of today’s targets
are 10.000:1 and sometimes even more than 1.000.000:1. Although there are still charts with 12 gray steps
and less available, we recommend using at least the TE 264 with 20 patches to have enough supporting
points for the calculation. The standard version of TE264 uses a screening to form the gray levels. This may
lead to increased noise levels or artefacts in the images of high resolution cameras that can resolve the
screening. To avoid this problem the chart should fit a limited image height and/or the cameras may, in
contrast to the procedure defined in the standard, be slightly defocused. TE 264X is available that uses
continuous tone film and therefore does not show this problem.
An integrating sphere like the LE6 provides the best uniformity for the illumination of the OECF targets.
Although the targets usually come with density levels and the integrating sphere has a build in illuminance
meter we recommend to use a luminance meter in combination with the charts because the conversion to
luminances from densities and illuminances requires a calibration factor. A low cost but accurate device is the
Gossen Mavo Monitor.
Note: Do not use a teleluminance meter for the measurements!!! These devices are affected by stray light
and do not deliver accurate values for the dark patches!!!
The measured values for the patches can be used to create your specific reference file for the evaluation in
the iQ-Analyzer. To type in the values use the “Luminance and Density Data” button in the advanced settings
of the OECF module.
Images taken from a single gray scale target can be used to answer all of the following questions:
» What is the maximum contrast in a scene that can be captured by the camera in all its tonal details
(dynamic range)?
» Is the white balancing o.k.?
» Does the camera use all possible digital values in the image?
» Is there a gamma or tonal correction applied to the captured linear image?
» What is the signal to noise ratio for different grey levels?
» What is the ISO speed of the camera?