1 / 27

ECE 638: Principles of Digital Color Imaging Systems

ECE 638: Principles of Digital Color Imaging Systems. Lecture 6: CIE Standards. Synopsis. Brief review of primaries Chromaticity diagram for primaries Overview of CIE Photometry and relative luminous efficiency function CIE 1931 standard observer RGB form XYZ form.

ejohnny
Download Presentation

ECE 638: Principles of Digital Color Imaging Systems

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. ECE 638: Principles ofDigital Color Imaging Systems Lecture 6: CIE Standards

  2. Synopsis • Brief review of primaries • Chromaticity diagram for primaries • Overview of CIE • Photometry and relative luminous efficiency function • CIE 1931 standard observer • RGB form • XYZ form

  3. Review: Primary mixture and sensor response

  4. Review: Match equation • Response to test stimulus • Match amounts of primaries

  5. Review: Color matching functions • Given primaries , let denote the amount of these primaries required to match the stimulus for each fixed wavelength . • Thus, we have • where , • the matrix is given as before, • and • Combining these results, we obtain

  6. Review: Computation of match amounts for an arbitrary stimulus • Consider arbitrary stimulus • Match amounts are given by • This looks like a sensor

  7. Chromaticity coordinates for primaries • In same way that we did for the sensor response, we can define chromaticities corresponding to primary amounts required to match a given stimulus as viewed by a given sensor

  8. Spectral locus in primary chromaticity space • For the special case of a monochromatic stimulus with wavelength , the primary amounts are given by the color matching functions evaluated at that wavelength. • In this case, when plotted as a function of , the chromaticity coordinates yield the spectral locus.

  9. Example: three channel overlap sensor and monochromatic primaries • Sensor response functions • Primaries • Primary response matrix

  10. Color matching functions

  11. Spectral locus • Note coordinates (1,0,0), (0,1,0), and (0,0,1) that occur at wavelengths 650, 550, and 450 nm, respectively.

  12. Compare to common CIE chromaticity diagram

  13. What is the CIE?* • International standards organization • Commission Internationale de l'Eclairage (International Commission on Illumination) • an organization devoted to international cooperation and exchange of information among its member countries on all matters relating to the science and art of lighting. • Formed in 1913. Predecessor organization formed in 1903. • http://members.eunet.at/cie/ *This material is largely taken from Wyszeckiand Stiles.

  14. Photometry • Matching of brightness • Difficulties • Color matching involves complete match between two stimuli, i.e. under match condition, test stimulus and match stimulus look exactly the same. • Brightness matching involves matching one attribute (brightness or lightness) of two stimuli which will generally differ in other attributes (hue and saturation). • Several approaches may be used to overcome this limitation.

  15. Flicker photometry • Consider the apparatus shown below which presents a stimulus that periodically switches between two different stimuli.

  16. Flicker photometry (cont.) • A match occurs when the observer fails to see temporal variation (flicker) in the stimulus. • For the HVS, the temporal frequency response to a time-varying chromatic stimulus has a lower cut-off frequency than the temporal frequency response to a time-varying achromatic stimulus. • For flicker frequencies between 10 Hz and 40 Hz, the two stimuli will appear to have the same hue and saturation, but may differ in brightness until the matching stimulus is adjusted to achieve a match.

  17. Summary of flicker photometry observations This is the regime that is useful for flicker photometry

  18. Relative luminous efficiency • An achromatic sensor with response function is called the standard photometric observer.

  19. Definition of luminance • Luminance • cd – candela • lm – lumen

  20. CIE 1931 standard RGB observer • Observer consists of color matching functions corresponding to monochromatic primaries • Primaries • R – 700 nm • G – 546.1 nm • B – 435.8 nm • Ratio of radiances • Chosen to place chromaticity of equal energy stimulus E at center of (r-g) chromaticity diagram, i.e. at (0.333,0.333) that areas under color matching functions are identical. • Based on observations in a 2 degree field of view using color matching method discussed earlier.

  21. Color matching functions for 1931 CIE standard RGB observer

  22. Chromaticity diagram for 1931 CIE standard RGB observer

  23. CIE 1931 standard XYZ observer • The CIE also defined a second standard observer based on a linear transformation from the 1931 RGB color matching functions. • The XYZ observer has the following properties: • The color matching functions are non-negative at all wavelengths. • The chromaticity coordinates of all realizable stimuli are non-negative. • The color matching function is equal to the relative luminous efficiency function • To achieve these properties, it was necessary to use primaries that are not realizable. • The chromaticities of the primaries lie outside the spectral locus. What does it mean for a primary to not be realizable?

  24. Why non-negative color matching functions? • The 30-ton ENIAC computer with 19,000 vacuum tubes and 1,500 relays was placed in service in 1945. • IBM introduced the 5150 PC in 1981. • Color scientists were worried about calculation errors, especially those due to working with negative numbers.

  25. Color matching functions for 1931 CIE standard XYZ observer

  26. Chromaticity diagram for 1931 CIE standard XYZ observer

  27. Fundamental spectral components of 1931 CIE XYZ primaries From Wolski, “A Review of Linear Color Descriptors and their Applications.” 1994

More Related