Color correction: Difference between revisions
→Gel nomenclature: The cited source already states that different manufacturers have different specs, removed exact temperature numbers |
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{{Short description|Process used in stage lighting, photography, and television}} |
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{{About|color correction using lighting and camera filters|video color correction in post-production|Color grading|color correction of still images in post-production|Color balance|mutual color correction of digital images|Color mapping}} |
{{About|color correction using lighting and camera filters|video color correction in post-production|Color grading|color correction of still images in post-production|Color balance|mutual color correction of digital images|Color mapping}} |
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'''Color correction''' |
'''Color correction''' is a process used in [[stage lighting]], [[photography]], [[television]], [[cinematography]], and other disciplines, which uses [[color gel]]s, or filters, to alter the overall color of the light. Typically the light color is measured on a scale known as [[color temperature]], as well as along a [[green]]–[[magenta]] axis orthogonal to the color temperature axis. |
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Without color |
Without color-correction gels, a scene may have a mix of various colors. Applying color-correction gels in front of light sources can alter the color of the various light sources to match. Mixed lighting can produce an undesirable aesthetic when displayed on a television or in a theatre. |
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Conversely, gels may also be used to make a scene ''appear'' more natural by simulating the mix of color temperatures that occur naturally. This application is useful especially where ''motivated lighting'' (lending the impression that it is [[diegetic]]) is the goal. Color gels may also be used to tint lights for artistic effect. |
Conversely, gels may also be used to make a scene ''appear'' more natural by simulating the mix of color temperatures that occur naturally. This application is useful, especially where ''motivated lighting'' (lending the impression that it is [[diegetic]]) is the goal. Color gels may also be used to tint lights for artistic effect. |
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== Correlated color temperature == |
== Correlated color temperature == |
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| ⚫ | The particular color of a white light source can be simplified into a [[Color temperature#Correlated color temperature|correlated color temperature]] (CCT). The higher the CCT, the bluer the light appears. Sunlight at 5600 K, for example, appears much bluer than tungsten light at 3200 K. Unlike a [[chromaticity]] diagram, the Kelvin scale reduces the light source's color into one dimension. Thus, light sources of the same CCT may appear green or magenta in comparison with one another.<ref>{{cite web |url=http://www.etconsult.com/papers/White%20Paper%20Matt%20Cowan.pdf |title=The White Paper |website=www.etconsult.com |access-date=12 January 2022 |archive-url=https://web.archive.org/web/20060813225552/http://www.etconsult.com/papers/White%20Paper%20Matt%20Cowan.pdf |archive-date=13 August 2006 |url-status=dead}}</ref> [[Fluorescent light]]s, for example, are typically very green in comparison with other types of lighting. However, some fluorescent lamps are designed to have a high faithfulness to an ideal light, as measured by its [[color rendering index]] (CRI). This dimension, along lines of constant CCT, is sometimes measured in terms of green–magenta balance;<ref>{{cite web | title = TLS, Inc. Technical Library - Filter Facts | url = http://www.tlsinc.com/toolfilterfax.html }}</ref> this dimension is sometimes referred to as "tint" or "CC". |
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| ⚫ | The particular color of a white light source can be simplified into a [[Color temperature#Correlated color temperature|correlated color temperature]] (CCT). The higher the CCT, the bluer the light appears. Sunlight at |
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== Gel nomenclature == |
== Gel nomenclature == |
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<!-- [[Correct To Orange]] and [[Color Temperature Orange]] redirect here. --> |
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| ⚫ | The main color-correction gels are "color temperature blue" (CTB) and "color temperature orange" (CTO). A CTB gel converts tungsten light to "daylight" color. A CTO gel performs the reverse.<ref name="jackman">{{cite book | title = Lighting for Digital Video and Television | first = John | last = Jackman | edition = second | publisher = Focal Press | year = 2004 | isbn = 1-57820-251-5 | url = https://books.google.com/books?id=21mbJwLyjz4C&q=%22color+conversion+and+correction+gels%22+intitle:lighting+inauthor:jackman+temperatures&pg=PA67 }}</ref> Note that different manufacturers' gels yield slightly different colors. As well, there is no precise definition of the color of daylight since it varies depending on the location (latitude, dust, pollution) and the time of day. |
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| ⚫ | The main color |
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== Process == |
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{{Main|Color balance}} |
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Color correction is a technical process that fixes color issues and makes footage appear as naturalistic as possible. The idea is for colors to look clean and real, as [[human eye]]s would see them in the real world – basically, correcting problems of the underlying image by balancing out the colors, making the whites appear white, the blacks appear black, and making sure that everything is even. |
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This process is usually used in stage lighting, photography, television, cinematography, and other disciplines. |
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== White |
== White-balancing cameras == |
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{{Main|Color balance}} |
{{Main|Color balance}} |
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Color filters may be applied over a camera lens to adjust its white balance. In video systems, white balance can be achieved by digital or electronic manipulation of the signal and hence color |
Color filters may be applied over a camera lens to adjust its white balance. In video systems, white balance can be achieved by digital or electronic manipulation of the signal and hence color-correction filters are not entirely necessary. However, some digital cinema cameras can record an image without any digital filtering applied; using physical color-correction filters to white balance (instead of digital or electronic manipulation) can maximize the [[dynamic range]] of the captured image.<ref>{{cite web |url=http://www.cinematography.net/Pages%20DW/Viper_Magenta_Filter.htm |title=Viper_'Magenta'_Filter |website=www.cinematography.net |access-date=12 January 2022 |archive-url=https://web.archive.org/web/20061209070622/http://www.cinematography.net/Pages%20DW/Viper_Magenta_Filter.htm |archive-date=9 December 2006 |url-status=dead}}</ref> |
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Some professional cameras designed for [[ |
Some professional cameras designed for [[electronic news gathering]] use filter wheels containing color-correction filters and are designed to optimize performance for different color temperatures. |
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In film cameras, no electronic or digital manipulation of white balance is possible in the original camera negative. Color |
In film cameras, no electronic or digital manipulation of white balance is possible in the original camera negative. Color-correction filters are an effective method of adjusting white balance. Without filtering, one must attempt to fix white balance through [[Color grading|color timing]] or by manipulating the film after it has been scanned or telecined. |
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== Color correction in software == |
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Software applications such as [[Adobe Photoshop]] allow the user to correct colors to achieve the desired results in an image. Multiple tools available to correct colors, match colors, or change colors of images or of parts of images. |
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<references/> |
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{{Reflist}} |
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== External links == |
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* {{Commons category-inline}} |
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[[Category:Cinematography]] |
[[Category:Cinematography]] |
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Latest revision as of 13:21, 6 March 2024
Color correction is a process used in stage lighting, photography, television, cinematography, and other disciplines, which uses color gels, or filters, to alter the overall color of the light. Typically the light color is measured on a scale known as color temperature, as well as along a green–magenta axis orthogonal to the color temperature axis.
Without color-correction gels, a scene may have a mix of various colors. Applying color-correction gels in front of light sources can alter the color of the various light sources to match. Mixed lighting can produce an undesirable aesthetic when displayed on a television or in a theatre.
Conversely, gels may also be used to make a scene appear more natural by simulating the mix of color temperatures that occur naturally. This application is useful, especially where motivated lighting (lending the impression that it is diegetic) is the goal. Color gels may also be used to tint lights for artistic effect.
[edit]
The particular color of a white light source can be simplified into a correlated color temperature (CCT). The higher the CCT, the bluer the light appears. Sunlight at 5600 K, for example, appears much bluer than tungsten light at 3200 K. Unlike a chromaticity diagram, the Kelvin scale reduces the light source's color into one dimension. Thus, light sources of the same CCT may appear green or magenta in comparison with one another.[1] Fluorescent lights, for example, are typically very green in comparison with other types of lighting. However, some fluorescent lamps are designed to have a high faithfulness to an ideal light, as measured by its color rendering index (CRI). This dimension, along lines of constant CCT, is sometimes measured in terms of green–magenta balance;[2] this dimension is sometimes referred to as "tint" or "CC".
Gel nomenclature[edit]
The main color-correction gels are "color temperature blue" (CTB) and "color temperature orange" (CTO). A CTB gel converts tungsten light to "daylight" color. A CTO gel performs the reverse.[3] Note that different manufacturers' gels yield slightly different colors. As well, there is no precise definition of the color of daylight since it varies depending on the location (latitude, dust, pollution) and the time of day.
Gels that remove the green cast of fluorescent lights are called "minus green". Gels that add a green cast are called "plus green".[3] Fractions such as 3/4, 1/2, 1/4, and 1/8 indicate the strength of a gel. A 1/2 CTO gel is half the strength of a (full) CTO gel.
Process[edit]
Color correction is a technical process that fixes color issues and makes footage appear as naturalistic as possible. The idea is for colors to look clean and real, as human eyes would see them in the real world – basically, correcting problems of the underlying image by balancing out the colors, making the whites appear white, the blacks appear black, and making sure that everything is even.
This process is usually used in stage lighting, photography, television, cinematography, and other disciplines.
White-balancing cameras[edit]
Color filters may be applied over a camera lens to adjust its white balance. In video systems, white balance can be achieved by digital or electronic manipulation of the signal and hence color-correction filters are not entirely necessary. However, some digital cinema cameras can record an image without any digital filtering applied; using physical color-correction filters to white balance (instead of digital or electronic manipulation) can maximize the dynamic range of the captured image.[4]
Some professional cameras designed for electronic news gathering use filter wheels containing color-correction filters and are designed to optimize performance for different color temperatures.
In film cameras, no electronic or digital manipulation of white balance is possible in the original camera negative. Color-correction filters are an effective method of adjusting white balance. Without filtering, one must attempt to fix white balance through color timing or by manipulating the film after it has been scanned or telecined.
Color correction in software[edit]
Software applications such as Adobe Photoshop allow the user to correct colors to achieve the desired results in an image. Multiple tools available to correct colors, match colors, or change colors of images or of parts of images.
References[edit]
- ^ "The White Paper" (PDF). www.etconsult.com. Archived from the original (PDF) on 13 August 2006. Retrieved 12 January 2022.
- ^ "TLS, Inc. Technical Library - Filter Facts".
- ^ a b Jackman, John (2004). Lighting for Digital Video and Television (second ed.). Focal Press. ISBN 1-57820-251-5.
- ^ "Viper_'Magenta'_Filter". www.cinematography.net. Archived from the original on 9 December 2006. Retrieved 12 January 2022.
External links[edit]
Media related to Color correction at Wikimedia Commons
