Content deleted Content added
←Blanked the page |
Reverting possible vandalism by Special:Contributions/74.36.24.90 to version by SmackBot. If this is a mistake, report it. Thanks, ClueBot. (55404) (Bot) |
||
Line 1:
The '''Color Rendering Index (CRI)''' (sometimes called Color Rendition Index), is a measure of the ability of a light source to reproduce the colors of various objects being lit by the source. It is a method devised by the [[International Commission on Illumination]] (CIE). The best possible rendition of colors is specified by a CRI of one hundred, while the very poorest rendition is specified by a CRI of zero. For a source like a low-pressure [[sodium vapor lamp]], which is monochromatic, the CRI is nearly zero, but for a source like an [[incandescent light bulb]], which emits essentially [[black body]] radiation, it is nearly one hundred. The CRI is measured by comparing the color rendering of the test source to that of a "perfect" source which is generally a black body radiator, except for sources with [[color temperature]]s above 5000K, in which case a simulated daylight (e.g. [[D65]]) is used. For example, a standard "cool white" [[fluorescent lamp]] will have a CRI near 63. Newer "triphosphor" fluorescent lamps often claim a CRI of 80 to 90.
CRI is a quantitatively measurable index, not a subjective one. A reference source, such as black body radiation, is defined as having a CRI of 100 (this is why incandescent lamps have that rating, as they are, in effect, almost blackbody radiators), and the test source with the same color temperature is compared against this. Both sources are used to illuminate eight standard samples. The perceived colors under the reference and test illumination (measured in the [[CIE 1931 color space]]) are compared using a standard formula, and averaged over the number of samples taken (usually eight) to get the final CRI. Because eight samples are usually used, manufacturers use the prefix "octo-" on their high-CRI lamps.
The standard formula consists of measuring the color indices of eight sample colors on the 1964 W*U*V* uniform color space (which is now obsolete). The indices of the samples are first measured while being illuminated by the reference source, yielding indices <math>[W_{i0},U_{i0},V_{i0}]</math> where the index ''i'' specifies the particular sample color. The indices of the samples are then measured under the test source yielding indices <math>[W_i,U_i,V_i]</math>. The distances <math>\Delta E_i</math> between the measured colors is then calculated:
:<math>\Delta E_i=\sqrt{(U_i-U_{i0})^2+(V_i-V_{i0})^2+(W_i-W_{i0})^2}\,</math>
The color rendering index <math>R_i</math> is calculated for each of the eight samples:
:<math>R_i=100-4.6\Delta E_i\,</math>
which gives the color rendering index with respect to each sample.
The factor 4.6 was so chosen that the Ra of a standard warm-white Thalium lamp would be about 50. It also appeared that Ri could be negative (∆Ei ≥ 22), and this was indeed
calculated for some lamp test colors
The general color rendering index <math>R_a</math> is then the average of these eight separate indices.
:<math>R_a=\frac{1}{8}\sum_{i=1}^8 R_i</math>
In 1965, in order to be able to objectively compare the color rendering
properties of light sources, the CIE introduced a standardised measuring
method. This method calculates the color change of 14 test colors under
the light source being tested relative to the colors measured under a
reference illuminant. The first 8 test colors are relatively non-saturated
colors and are evenly distributed over the complete range of hues.
These 8 test colors are employed to calculate the general color
rendering index Ra. The last 6 colors (numbered 9 to 14) are employed to
supply extra information about the color rendering properties of the light
sources.
Although an objective measure, the CRI has come under a fair bit of criticism in recent years as it does not always correlate well with the subjective color-rendering quality for real scenes, particularly for modern (e.g. fluorescent) lightsources with spikey emission spectra, or white LEDs. It is understood that the CIE is looking at developing newer color-rendering performance metrics.
In general it can be said that the
importance of Ri decreases as its value relative to 100 increases. This is
even more true for the Ra, which is the average of 8 individual Ri values,
and which gives only a global impression of the color rendering properties
of a light source. Indeed, in practice it can occur that a light source with
Ra = 85 is not always better than a light source whose Ra = 80.
A second disadvantage of the Ra value is the fact that it gives no
information as to the direction of the color shift. A color can be more
saturated or less saturated without a change in the numerical value of ∆Ei,
while in general a saturated color is experienced as being more attractive.
An attempt at rectifying this has been made by the introduction of the
Color Discrimination Index (CDI). Here the surface of the octagon is
formed by the eight test colors in the u,v diagram as a measure of the
color rendering quality. A smaller surface means less saturated, pale
colors. A larger surface means greater saturation, stronger contrasts,
more lively, and so on. The objection to this method is that the principle of
true-to-nature color rendering is abandoned. It also appears that equal
surfaces do not always correspond to equal visual assessments. The CIE
is rather hesitant about this method. The same goes for the so-called
Color Preference Index (CPI) in which even greater emphasis is placed
on the flattering rendition of well-known objects (butter, grass, skin color,
etc.).
==See also==
*[[Color temperature]] and Correlated Color Temperature (CCT)
*[[Over-illumination]]
== References ==
* CIE Publication 13.3. Method of measuring & specifying colour rendering properties of light sources. CIE,1995.
==External links==
*[http://www.kruschwitz.com/cri.htm Formula to calculate CRI]
[[Category:Color]]
[[Category:Lighting]]
[[de:Farbwiedergabeindex]]
[[fr:Indice de rendu de couleur]]
[[nl:Kleurweergave-index]]
[[pl:CRI]]
[[fi:Värintoistoindeksi]]
| |||