YDbDr

An image along with its

Y

,

D_B

and

D_R

components.

YDbDr, sometimes written YD_BD_R, is the colour space used in the SÉCAM analog terrestrial colour television broadcasting standard, which is used in France and some countries of the former Eastern Bloc. It is very close to YUV (PAL) and its related colour spaces such as YIQ (NTSC), YPbPr and YCbCr.

YDbDr is composed of three components - $Y$ , $D_B$ and $D_R$ . $Y$ is the luminance, $D_B$ and $D_R$ are the chrominance components, representing the red and blue colour differences.

Formulas

The three component signals are created from an original RGB (red, green and blue) source. The weighted values of $R$ , $G$ and $B$ are added together to produce a single $Y$ signal, representing the overall brightness, or luminance, of that spot. The $D_B$ signal is then created by subtracting the $Y$ from the blue signal of the original RGB, and then scaling; and $D_R$ by subtracting the $Y$ from the red, and then scaling by a different factor.

These formulae approximate the conversion between the RGB colour space and YDbDr.

\begin{align} R, G, B, Y &\in \left[ 0, 1 \right]\\ D_B, D_R &\in \left[ -1.333, 1.333 \right]\end{align}

From RGB to YDbDr:

\begin{align} Y &= +0.299 R +0.587 G +0.114 B\\ D_B &= -0.450 R -0.883 G +1.333 B\\ D_R &= -1.333 R +1.116 G +0.217B\\ \begin{bmatrix} Y \\ D_B \\ D_R \end{bmatrix} &= \begin{bmatrix} 0.299 & 0.587 & 0.114 \\ -0.450 & -0.883 & 1.333 \\ -1.333 & 1.116 & 0.217 \end{bmatrix} \begin{bmatrix} R \\ G \\ B \end{bmatrix}\end{align}

From YDbDr to RGB:

\begin{align} R &= Y +0.000092303716148 D_B -0.525912630661865 D_R\\ G &= Y -0.129132898890509 D_B +0.267899328207599 D_R\\ B &= Y +0.664679059978955 D_B -0.000079202543533 D_R\\ \begin{bmatrix} R \\ G \\ B \end{bmatrix} &= \begin{bmatrix} 1 & 0.000092303716148 & -0.525912630661865 \\ 1 & -0.129132898890509 & 0.267899328207599 \\ 1 & 0.664679059978955 & -0.000079202543533 \end{bmatrix} \begin{bmatrix} Y \\ D_B \\ D_R \end{bmatrix}\end{align}

You may note that the $Y$ component of YDbDr is the same as the $Y$ component of YUV. $D_B$ and $D_R$ are related to the $U$ and $V$ components of the YUV colour space as follows:

\begin{align} D_B &= + 3.059 U\\ D_R &= - 2.169 V\end{align}

There is also a variety of the PAL broadcasting standard, PAL-N, that uses the YDbDr colour space.

References

Shi, Yun Q. and Sun, Huifang Image and Video Compression for Multimedia Engineering, CRC Press, 2000 ISBN 0-8493-3491-8

v t e Color space
List of color spaces Color models
CAM	CIECAM02 iCAM
CIE	XYZ (1931) RGB (1931) YUV (1960) UVW (1964) CIELAB (1976) CIELUV (1976) CAM (2002)
RGB	RGB color spaces sRGB rg chromaticity Adobe Wide-gamut ProPhoto scRGB DCI-P3 Rec. 601 SMPTE 240M/"C" Rec. 709 Rec. 2020 Rec. 2100
YUV	YUV PAL YDbDr SECAM PAL-N YIQ NTSC YCbCr Rec. 601 Rec. 709 Rec. 2020 Rec. 2100 ICtCp Rec. 2100 YPbPr MAC xvYCC YCoCg
Other	CcMmYK CMYK Coloroid LMS Hexachrome HSL, HSV HCL Imaginary color OSA-UCS PCCS RG RYB HWB YJK TSL
Color systems and standards	ACES ANPA Colour Index International CI list of dyes DIC Federal Standard 595 HKS ICC profile ISCC–NBS Munsell NCS Ostwald Pantone RAL list
For the vision capacities of organisms or machines, see Color vision.

YDbDr

Formulas

References

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