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YPbPr(Y/PB/PR,YPRPB,PRPBY,PBPRY,Y/Pb/Pr,YPrPb,PrPbY,PbPrY,Y/R-Y/B-Y,Y(R-Y)(B-Y),R-Y,B-Y) to lms Converter - Color Space Converter

YPbPr(Y/PB/PR,YPRPB,PRPBY,PBPRY,Y/Pb/Pr,YPrPb,PrPbY,PbPrY,Y/R-Y/B-Y,Y(R-Y)(B-Y),R-Y,B-Y) color space introduction

Also known as the YPbPr(Y/PB/PR,YPRPB,PRPBY,PBPRY,Y/Pb/Pr,YPrPb,PrPbY,PbPrY,Y/R-Y/B-Y,Y(R-Y)(B-Y),R-Y,B-Y) color space.There are 3 channels in total, Y,range from 0 to 1.Pb,range from -0.5 to 0.5.Pr,range from -0.5 to 0.5.
Origin: The YPbPr color space originates from analog television broadcasting and component video technology, designed to be compatible with black-and-white television while efficiently transmitting color information.
Primary Names: YPbPr color space, where 'Y' is for luminance, 'Pb' stands for the blue difference component, and 'Pr' represents the red difference component.
YPbPr is typically expressed as three separate signals, for example: YPbPr(0.6, 0.2, 0.15) representing specific luminance and color differences.
Usage Scope: It's primarily used for analog television signals and connecting devices such as DVD players, video game consoles, and home theater systems to TVs.
Additionally, YPbPr is designed to separate the luminance (Y) from the color information (Pb and Pr), which is beneficial for black-and-white displays and synchronization in analog transmission.

lms color space introduction

Also known as the lms color space.There are 3 channels in total,long,range from 0 to 100.medium,range from 0 to 100.short,range from 0 to 100.
The LMS color space is based on the response of the human eye's cone cells to color, consisting of the responses from three different types of cone cells which are most responsive to long, medium, and short wavelengths of light respectively.
LMS stands for Long, Medium, and Short wavelengths.
The LMS color space typically uses three coordinates to express colors, corresponding directly to the responses of the cone cells. This space is often used to calculate transformations to other color spaces that are perceptually closer to human vision, such as from RGB.
The LMS color space is primarily used in the fields of biology and vision science, particularly for simulating and understanding human visual perception.
Since LMS is based on physiological characteristics, it is not commonly used for practical applications such as image processing or color printing but serves as a research and theoretical model.

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