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Abstract: Usually we use CRI to evaluate the color reproduction ability of a light source. However, due to the spectral discontinuity of the LED light source, this evaluation method has some problems, especially the white light illumination environment mixed with color light sources, due to the spectrum and camera. The sensor chip does not match, showing the deviation of color reproduction, and the TLCI evaluation system is more accurate. This paper compares CRI and TLCI evaluation system.
1. Generation of TLCI standards
The International Commission on Illumination (CIE) defines color rendering as the effect of a light source on the color appearance of an object compared to a standard reference source. For many years, people have been using the Color Rendering Index (CRI) as a way to judge the ability of a light source to restore true colors. CRI is determined for the human eye and is a measure of color recognition in comparison to a standard source. It is still a widely accepted standard for measuring the color rendering capabilities of light sources. In this evaluation system, the tungsten lamp has the best CRI performance, almost 100, and other sources have lower spectral discontinuities than tungsten lamps CRI.
In recent years, the use of LED light sources has become very common in lighting environments for film and television photography. Due to the special principle of LED light source illumination and spectral distribution, sometimes a light source with a high CRI index, when used in a film and television shooting environment, will also show a mismatch between the spectral components and the color characteristics of the camera's sensor chip. The deviation on the color of the output screen. Although these deviations can be appropriately corrected by post-grading, they usually take a lot of time and cost, and are often not satisfactory.
Therefore, this requires a new metric that not only correctly reflects the human eye's perception of the light source color, but also reflects the camera's acceptance of light color and the degree of color reduction. To this end, the former BBC engineer, optical expert Alan Roberts and the European Broadcasting Union (EBU) worked together to propose the TV light source consistency parameter in November 2011 (Television Lighting) The Consistency Index, abbreviated as TLCI, is named TLCI-2012. It is to test the spectral energy distribution of the measured light source by the spectral radiation tester, and then use the analysis software to calculate the TLCI test result.
2. Main contents of the TLCI standard
TLCI-2012 is a standard recommended by the European Broadcasting Union (EBU) for lighting manufacturers and film and television production units. It is not an internationally accepted technical standard. This standard was established and improved under the strong support and active promotion of the BBC TV station. It has become the most accepted and universal standard. It is a standard for assessing the quality of studio lighting color performance.
TLCI is a measurement and calculation of the spectral energy distribution emitted by a light source using a spectroradiometer. It uses data analysis to represent the degree of performance of the color reproduction of the light source in a television lighting environment with values from 0 to 100. The meaning of the values is basically the same as CRI, but it is also very different. For CRI, the color rendering index of a light source is greater than or equal to 85, which is considered to be suitable for TV shooting, and the value of TLCI-2012 is more detailed, as shown in Table 1.
Table 1 Relationship between the value of light source TLCI-2012 and post-gradation
As we all know, the measured value of CRI is determined by the difference between the appearance of the specified 14 color samples under the measured light source and the appearance of the standard reference light source. These samples were selected from Munsell color samples. Figure 1 shows 14 standard CRI color samples. The first 8 blocks are usually used to determine the general color rendering index Ra (usually the CRI value mentioned is the general color rendering index). The selected TCS01-TCS08 has medium saturation and Roughly the same brightness, and the range of colors covers the entire visible spectrum. The last six blocks are special color samples. TCS09-TCS14 is rarely used. In addition to imitating European skin color and leaf green, it also includes higher saturation primary colors.
Figure 1 14 standard color samples specified by CRI
The TLCI standard test is somewhat similar to CRI and is determined by a color contrast icon showing the alignment results (shown in Figure 2). There are 24 test color blocks in TLCI. The test results are based on the standard light source (the standard light source refers to the light source whose color and color temperature are both falling on the Planck curve), and the TV camera output screen is based on each standard contrast color block. The color performance obtained. This color performance refers to the color performance that can be seen on a standard level HDTV monitor.
Figure 2 TLCI standard test patch table
A small color block is inserted in the center of each test patch in the test result chart of the TLCI standard. This small color block is the color performance of the tested light source on the camera monitor in the same test environment. At the time of testing, the camera was color balanced for each color, so the gray level was accurate. Figures 3 and 4 show the results of testing two different light sources. It is obvious that the TLCI test result of the first light source is lower than that of the second light source. Figure 3 shows a white LED spotlight randomly sampled on the market. Figure 4 shows the test results of an ARRI L7-C spotlight.
Figure 3 General LED white spotlight TLCI test results
Figure 4 Alai (ARRI) L7-C spotlight TLCI test results
Figure 5 shows a chart of test results containing complete TLCI data. In addition to the patch map, the test results include color correction suggestion tables and spectral energy profiles. The first line of the top text of the figure describes the name of the light source being measured and its associated color temperature value (CCT).
The value "-0.6" in parentheses refers to the deviation of the color temperature value of the light source from the standard color temperature curve, "+" means the side of the magenta direction, and "-" means the side of the green direction. When the deviation value is greater than 1, the actual test significance is not great. The red text in the second line indicates the value of the TLCI test result. The test result value of this light source is 90.
Figure 5 TLCI complete data test results chart
Figure 6 color correction suggestion table and spectral distribution curve
On the right side of the colorimetric block, there is also a color correction suggestion table and a spectral distribution curve, and FIG. 6 is a partial enlarged view. The actual light source TLCI has reached 90, has reached the broadcast standard, but the test results still give the direction of calibration if you want a very accurate color reproduction. The color correction suggestion table gives the direction and degree of color correction in the later stage of the image. For 12 different color regions, "+" and "-" are marked according to the degree, and "+" indicates enhancement, "- "It means weakening, and the number of "+" and "-" indicates the degree of strength. For each color area, correction suggestions for three parameters of lightness, chroma, and hue are indicated. For example, the first line "red (R)" and the second line "red / yellow (R / Y)" three parameters do not need to be corrected. The third line "yellow (Y)" brightness and saturation do not need to be corrected, the hue needs a little weakening. The sixth line "Green/Cyan (G/C)" brightness does not need to be corrected, the hue needs to be slightly weakened, and the saturation needs to be enhanced to a large extent.
The lower right corner of the TLCI complete data test chart is the spectral energy distribution of the visible light region (wavelength 380nm to 750nm) of the measured light source. The light blue curve in the figure is the spectral curve.
4. How to detect TLCI-2012
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