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I want to change image to Black-White or Sepia. After converting the image i want to replace the existing image with the converted image.

Please give me some suggestion.

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There are many ways to desaturate a color image. In fact, there is probably no one "true" or "correct" way to do it, though some ways are more "correct" than others.
I assume that your image is in RGB (Red-Green-Blue) format (though BGR is also common).

The simplest way, which should work for most photos (but less so for synthetic images), is to just use the Green channel of the 3 RGB channels. Humans are most sensitive to variations in the green part of the spectrum, so the green channel covers most of the visible range and is a good approximation to the grayscale image you want.

A better way to generate a grayscale image is to use a weighted average of the 3 RGB channels. Choosing equal weights (0.33*R+0.33*G+0.33*B) will give a pretty good grayscale image. Other convex weights (non-negative weights that sum to 1) will give different results some of which may be considered more aesthetically pleasing, and some may take into consideration perceptual parameters. (YUV uses these weights: Y = 0.299*R + 0.587*G + 0.114*B)

You could always convert the image to another color space which has only a single grayscale channel (and 2 "color" channels), such as HSV (V is the grayscale), YUV (Y is the grayscale) or Lab (L is the grayscale). The differences should not be very big.

The term "de-saturation" comes from the HSV space. If you convert you image to HSV, set the S channel (Saturation) to be all zeros, and render the image, you will get a 3-channel desaturated "color" image.

Duplicating these grayscale channels into RGB will give you a 3-channel desaturated "color" image - where all 3 RGB channels are identical.

Once you have this 3-channel (RGB) desaturated image, you can multiply each channel by a seprate weight to colorize the image - a sepia image.

Given a gray pixel [v,v,v], colorize it like so: [v*a, v*b, v*c], such that 0 <= a,b,c <=1.

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// Loop through the images pixels to reset color.
for(x=0; x<image1.Width; x++)
{
    for(y=0; y<image1.Height; y++)
    {
        Color pixelColor = image1.GetPixel(x, y);
        int grayScale = (int)((originalColor.R * .3) + 
            (originalColor.G * .59) + (originalColor.B * .11));

        //create the color object
        Color newColor =  Color.FromArgb(grayScale, grayScale, grayScale);
            image1.SetPixel(x, y, newColor);
    }
}

Convert color pixel to grayscale using this

Gray = Green * 0.59 + Blue * 0.11 + Red * 0.30;
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Why those values to multiply the components? Does that give sepia? I suspect it does, but an explanation would be useful. – ChrisF Jan 7 '11 at 12:10
    
Red (255,0,0) Green (0,255,0) Blue (0,0,255) Together they make white color which is 255,255,255. If you calculate using above formula using pure RGB, it results close to 255. – hungryMind Jan 7 '11 at 14:07

For sepia you want to convert to greyscale first. Then simply multiply each pixel by a set scaling triplet such as [1, 0.95, 0.82] you can play around with this triplet to get the right look... so the code might be...

for(x=0; x<image1.Width; x++)     
{         
    for(y=0; y<image1.Height; y++)         
    {             
        Color pixelColor = image1.GetPixel(x, y);             

        int grayScale = (int)((originalColor.R * .3) + (originalColor.G * .59) + (originalColor.B * .11));              
        //create the color object             
        Color newColor =  Color.FromArgb(grayScale, grayScale, grayScale);             

        //now apply a sepia filter
        pixelColor.R = newColor.R*1;
        pixelColor.G = newColor.G*0.95;
        pixelColor.B = newColor.B*0.82;

        image1.SetPixel(x, y, pixelColor);
     }
 }
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private Bitmap grayscale(Image image)
{
    Bitmap btm = new Bitmap(image);
    for (int i = 0; i < btm.Width; i++)
    {
        for (int j = 0; j < btm.Height; j++)
        {
            int ser = (btm.GetPixel(i, j).R + btm.GetPixel(i, j).G + btm.GetPixel(i, j).B) / 3;
            btm.SetPixel(i, j, Color.FromArgb(ser, ser, ser));
        }
    }
    return btm;
}
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