This document provides an overview of color management and the color management workflow. It discusses the goals of color management which are to process digital images accurately from capture to final presentation. It then describes the color management workflow which involves profiling devices, setting color settings in software, soft proofing prints, and publishing images online. The goal is to match color appearance throughout the workflow from camera to monitor to print.
2. The Goal of Color Management
To process a digital image from capture to final
presentation state as efficiently and accurately
as possible
Note that color management may appear as CM throughout this presentation.
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3. A Bit of Background
“… color management as a solution rather than a
meaningless punishment.”
The Scenario: your final print doesn‟t match what
you see on your display
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5. Light, and How it is Displayed
Red, Green, Blue Values
R + G + B = White > (255, 255,
255)
Cyan, Magenta, Yellow
Values
C + M + Y = Black-ish
+ K = Black
Displaying Color
Monitors are Backlit
Prints are Reflective
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6. Light, and How it is Displayed
“Different scanners and cameras will produce different RGB
values when… confronted with the same original or scene.”
Likewise, different monitors will produce different colors
when given the same RGB values.
Scanners and cameras use different filter sets just as
displays use different LEDs to produce the color.
Notice the problem???
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7. 1st Purpose for CM
Render ambiguous RGB values unambiguous
By associating them with a specific color as perceived by
humans, color appearance
CM achieves this by assigning a profile to the
image.
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8. Typical Image Profile Color Gamuts
ProPhoto RGB, Adobe
RGB (1998), sRGB
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9. Camera Capture
Digital cameras* are not limited to sRGB capture
Camera sensors are often capable of capturing
colors outside Adobe RGB
*Some compact point „n‟ shoot cameras may only
support saving as sRGB
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10. 2nd Purpose of CM
Match the specific color
appearance throughout
the workflow
Camera > Monitor > Print or
the Web
Characterize (profile the
devices) > Standardize (a
controlled constant) >
Translate
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11. CM Setup
CM begins with Your
Monitor
Calibrating and
profiling the display
Colorimeter/Spectrophoto
meter vs. The Human Eye
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14. The Working Environment
Tips to keeping a consistent viewing area:
Monitors work best in low light
Avoid automatic dimming
D5000 (daylight balanced) light bulbs
Avoid direct light sources falling on your monitor
Remove colorful or other distracting objects from around the
workstation
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15. Settings for Photoshop CS
Edit > Color Settings
North American Prepress 2 Defaults
Gray Working Space = Gamma of your RGB
working space
Convert To Working Spaces
Deselect > Profile Mismatches: Ask When
Opening
Deselect > Profile Mismatches: Ask When
Pasting
Select > Missing Profiles: Ask When Opening
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16. Settings for Ps Elements
Edit > Color Settings
Not as much control
Optimise for Printing
Adobe RGB
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17. Previewing Prints
WYSIWYG; sorry, not entirely possible
No printing technology* can reproduce the bright, saturated
colors like your monitor displays
Equally, monitors cannot display metallics, fluorescents,
nor dark saturated colors as can print
*Brands such as Epson have developed proprietary inks that
are capable of a much boarder color gamut than traditional
CMYK inks.
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18. Previewing Prints in Photoshop CS
aka. Soft Proofing
View > Proof Setup
Printer + Paper ICC Profiles
Check > Use Black Point
Compensation
Printing to Canvas? > Paper
White and Black Ink
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20. Previewing Prints in Ps Elements
Does not natively
support Soft Proofing
PsE Requires Add-ons
Elements+
QImage
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21. Adjusting the Soft Proof
Duplicate the image and display side-by-side
Image > Duplicate, Window > Arrange
(PsE) File > Duplicate
Use Adjustment Layers such as
Brightness/Contrast, Curves or Levels, or
Vibrance/Saturation
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25. Publishing to the Web
Monitor Majority Rules
Very few people calibrate their monitors
Tagged (profile assigned) vs. Untagged
Do your images have embedded profiles (sRGB or Adobe RGB)?
Not all web browsers are color-managed
Many browsers ignore embedded color profiles or ignore your monitor profile
Keep your working Adobe RGB images for editing/printing but
upload sRGB images for now, until more browsers are on board
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26. Resources
Adobe Color-Managed RAW Workflow
Find link on my site…
The Adobe Photoshop CS5 Book for Digital Photographers,
by Scott Kelby
kelbytraining.com/books
London Drugs Photo Lab ICC Profiles
http://www.londondrugs.com/PhotoLab/content.aspx?id=3012167b-1b04-
495c-bed7-9a9ab82f1393
nathanieltubb.ca > tech blog > Color Management Workflow
Color Management Workflow 26
Notes de l'éditeur
The goal of CM is to process a digital image from capture to final presentation state as efficiently and accurately as possible.
A bit of background is needed to understand why there is the need for proper color management and to view CM as a solution rather than a meaningless punishment.One key scenario that I experienced numerous times while at the LD Photo Lab, is that of the customer receiving their prints only to exclaim that the prints look nothing like what they saw at home on their computer.
Our digital images are made up of millions of pixels. Each of these pixels are represented with three values; red, green and blue.
For example, the RGB value 255, 255, 255 equals white. These RGB values control the amount of red, green, or blue light being emitted from our monitor’s LEDs.In print ink is applied in layers to a medium whether it is paper, canvas, or other type. We see the apparent color by ambient “white” light being filtered by the ink layers and the remaining light reflecting off the medium.
Just as everyone one of us is a different human being, different devices are going to capture and produce color differently. This creates a big problem, the RGB values end up becoming totally ambiguous and the solution has to be some kind of system or standard.
The first purpose for CM is to render the ambiguous RGB values unambiguous by associating them with a specific perceived color. We call this color appearance. This is achieved by assigning a color profile to the digital image.Our cameras do this without many of us knowing. By default most cameras are set to assign the sRGB profile to all photos taken.
Here are a couplegraphic models depicting the relative color space available to the top color profile standards.
In the days of film, photographers had the original film as reference for the intended color. Today digital capture is much more ambiguous and CM is necessary to know what you have captured.
kuhl-uh-rim-i-ter and spek-troh-foh-tom-i-terSo just consider for a second how you process your images. You download them from your memory card, back them up of course, and then start the selection and editing process. While you are selecting and editing your images, you are making hundreds of judgment calls. When editing, you are taking the original scene and artistic vision from your head and then virtually comparing that with what your monitor is displaying.While most folks will have the typical consumer display that came with your desktop or of course your laptop, those who have pricier monitors such as the Apple Cinema display or iMac or even a professional graphics monitor still should not feel too comfortable with the out-of-the-box color accuracy. These high-end devices are sold with tags that claim “40% more color” and “vivid color”; but this doesn’t mean that the displays a telling truth. Despite being capable of displaying a wider gamut of colors, this $1000 professional-grade monitor from NEC only displays 98% or the Adobe RGB 1998 color gamut.Calibrating your display using the built-in applications on either Windows OS or Mac OS relies on your own sight to judge whether a two graphics match. Although not all of us may have 20/20 eyesight, we each see color slightly differently and therefore I am more willing to rely on a tool that has been tuned to provide consistent results.
Here are some of the calibration devices available on the consumer market. Their price and functionality do range quite a bit. Some will only calibrate and profile your monitor, some will only calibrate and profile your printer/paper combinations, while others will do both.The basic function of the calibration device is that of metering a selection of color swatches displayed on the screen and then creating a correctional color profile by comparing the measured results against the standard.
Besides creating custom profiles for your displays, keep in mind the environment where you’re are doing your processing. Monitors work best in a low ambient light situation. When there is artificial light present, using daylight-balanced lighting will help create a more neutral space. Dimming or brightening your display inadvertently defeats the purpose of the custom profiling. Also be sure to avoid direct light sources interrupting or creating glare on your screen.
Now that is all fine and dandy, but what about my software.Not all applications are color-managed; or in other words, work with your monitor profile and the image profile to accurately display the colors. Some non-color-managed applications include: Windows Explorer, Mac Finder, Internet Explorer, Chrome, Safari, etc. These applications ignore the image profiles and ‘make-up’ the color appearance.Applications like Adobe Lightroom, Adobe Bridge, Adobe Photoshop (and Elements), and Mozilla Firefox are color-managed.These settings will help keep things consistent throughout your image creation and processing workflow.
What you see is what you get; sorry not really.The issue with printing as with other type of output is that you are dealing with yet another device that is going to act differently than both your monitor and your camera.As a general rule, print is much more limited than your monitor for displaying your range of colors. Some manufacturers such as Epson have created a proprietary ink systems that expand the gamut of the printer beyond that of the standard CMYK gamut.Also different types of paper will produce different results even run on the same printer.
We need a way to preview what our printer is going to display so that we can correct our image before hitting print.Many people who do not have a proper color management system and tools in place will spend huge amounts of money on ink and paper just trying to get the right result.Luckily, Photoshop provides us with a tool to Soft Proof our images. This process takes the image’s profile, the monitor’s profile, and the printer/paper profile and displays a composite of the final output. This composite preview allows you to make adjustments to correct the outputted image.In order to make sure you have an accurate preview you must select the ICC profile for your actual printer and paper configuration. Those who may print on both glossy, matte, and canvas would have to obtain three different profiles. These are usually either available for download from the manufacturers website or included on the software disk. However if you are using an Epson printer with a third party paper, you would have to create the profile yourself using a calibration tool that supports printer profiling like the some of the ones mentioned earlier.
This example shows how you can duplicate the image and display it side-by-side to compare the Soft Proof to the original. This was using the LD Canvas Enlargement profile and the White Paper and Black Ink options. As you can see it appears quite flat, lacking the richness of black tones. Glossy and even Semi-Gloss papers tend to provide wider gamuts and better deep tones.
Now that we see the final result via the Soft Proof, we can make final adjustments with Adjustment Layers to try and bring the image closer to the original. Usually this means tweaking the contrast, brightness, and saturation.
Here is my quick attempt at correcting the Soft Proof. Remember that I am still proofing for the Canvas profile; and that Glossy, Semi-Gloss, and even Matte profiles would not be quite so far off. This is a more extreme example.
When we go to print our image we want to use the same settings as we had for the Soft Proof preview. Firstly we are going to tell Photoshop to manage our color rather than our printer. Then choose our printer and paper profile, and check on Black point compensation just as we had before.
The PsE print options are pretty much the same.
Okay, so besides printing our final master pieces, we all like to share our photos either by Google+, Facebook, Picasa Web, Flickr, the list goes on. The unfortunate thing about sharing via the internet is that your work is at the mercy of the viewer’s device and even the application they are using to view it. As we have learned earlier in this presentation, most people take what they see on their monitors to be the truth especially if they are not comparing devices side-by-side.Also only a few of the top web browsers fully support color management. So this means that it is a shot in the dark as to what your viewers are actually seeing. Browsers that don’t fully support color management will ignore profiles and assume that all images are sRGB. For the meantime, until the web browsers catch up, I would suggest converting your images to sRGB before uploading them. This will give you a slightly more controlled outcome.