# How to convert a grayscale matrix to an RGB matrix in MATLAB?

``````rgbImage = grayImage / max(max(grayImage));
``````

or

``````rgbImage = grayImage / 255;
``````

Which of the above is right,and reason?

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To convert a grayscale image to an RGB image, there are two issues you have to address:

• Grayscale images are 2-D, while RGB images are 3-D, so you have to replicate the grayscale image data three times and concatenate the three copies along a third dimension.
• Image data can be stored in many different data types, so you have to convert them accordingly. When stored as a `double` data type, the image pixel values should be floating point numbers in the range of 0 to 1. When stored as a `uint8` data type, the image pixel values should be integers in the range of 0 to 255. You can check the data type of an image matrix using the function CLASS.

Here are 3 typical conditions you might encounter:

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I just made a test,seems `double(grayImage)` is the same as `grayImage`?And are `./` and `.*` divide and product operators in MATLAB? Seems `./` is the same as `/` ? – user198729 Apr 12 '10 at 13:11
@user198729: The operators `./` and `.*` denote element-wise division and multiplication, so that each element of the image matrix is divided by or multiplied by 255. You can check the class (i.e. data type) of a matrix by typing `class(grayImage)`. While `double(grayImage)` and `grayImage` might appear to be the same, they may each be a different class (such that they store their values in different ways). – gnovice Apr 12 '10 at 13:17
I tried various operations,but `/` and `./` never give a different result...And because `double(grayImage)` is the same as `grayImage`,`double(grayImage)./255` is also the same as `grayImage./255`.So,can you give two examples demonstrating why `./` and `double` are necessary? – user198729 Apr 12 '10 at 13:25
@user198729: First, the command `A/B` will give the same results as `A./B` if `B` is a single scalar value. Writing `./` just makes it explicitly clear to whoever is reading the code that element-wise division is occurring. Second, I think it was clear in my answer that the use of `double` is only necessary when you want to convert from another data type to `double`. If `grayImage` is already of type `double`, no conversion is necessary. – gnovice Apr 12 '10 at 13:33
Oh,seems I misunderstood `double` with `float point` alike data type in c/c++,thanks for the answer! – user198729 Apr 12 '10 at 13:38

By definition, an RGB image has 3 channels, which implies you need a three-dimensional matrix to represent the image. So, the right answer is:

``````rgbImage = repmat(255*grayImage/max(grayImage(:)),[1 1 3]);
``````

Be careful when normalizing `grayImage`. If `grayImage` is `uint8` then you will lose some precision in the `255*grayImage/max(grayImage(:))` operation.

Also, normalizing `grayImage` depends on the data. In your question, you used two methods:

``````rgbImage = grayImage / max(max(grayImage));
``````

which normalizes the grayscale image such that the maximum value in the image is `1` and

``````rgbImage = grayImage / 255;
``````

which only makes sense if the values in `grayImage` lie in the `0-255` range.

So it really depends on what you want to do. But, if you want an RGB image you need to convert your single-channel matrix to a 3-channel matrix.

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I thought that by definition the max value of `rgbImage` is `1`,which denotes `white`,but this seems not the case ? – user198729 Apr 12 '10 at 8:42
Not really, it depends on your usage of the image. – Jacob Apr 12 '10 at 14:10