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Octave supports conversion from the RGB color system to the HSV color system and vice versa. It is also possible to convert from a color RGB image to a grayscale image.
Transform a colormap or image from RGB to HSV color space.
A color in the RGB space consists of red, green, and blue intensities.
A color in HSV space is represented by hue, saturation and value (brightness) levels in a cylindrical coordinate system. Hue is the azimuth and describes the dominant color. Saturation is the radial distance and gives the amount of hue mixed into the color. Value is the height and is the amount of light in the color.
Output class and size will be the same as input.
Transform a colormap or image from HSV to RGB color space.
A color in HSV space is represented by hue, saturation and value (brightness) levels in a cylindrical coordinate system. Hue is the azimuth and describes the dominant color. Saturation is the radial distance and gives the amount of hue mixed into the color. Value is the height and is the amount of light in the color.
The input can be both a colormap or RGB image. In the case of floating
point input, values are expected to be on the [0 1] range. In the case
of hue (azimuth), since the value corresponds to an angle,
mod (h, 1)
is used.
>> hsv2rgb ([0.5 1 1]) ⇒ ans = 0 1 1 >> hsv2rgb ([2.5 1 1]) ⇒ ans = 0 1 1 >> hsv2rgb ([3.5 1 1]) ⇒ ans = 0 1 1
Output class and size will be the same as input.
Transform an image or colormap from red-green-blue (RGB) color space to a grayscale intensity image.
The input may be of class uint8, int8, uint16, int16, single, or double. The output is of the same class as the input.
Implementation Note: The grayscale intensity is calculated as
I = 0.298936*R + 0.587043*G + 0.114021*B
which corresponds to the luminance channel when RGB is translated to YIQ as documented in https://en.wikipedia.org/wiki/YIQ.
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