Min-Max normalization for uniform vectors

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JohnDylon on 9 Oct 2016

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Edited: JohnDylon on 19 Nov 2016

Hi,

Can anyone have any point on how to normalize a single number, say 1000, into a range of [-1,1]? Or even a uniform vector of say [1000 1000 1000 1000] into the same range as suggested above?

Normalizing a non-uniform data is trivial. Say the data is v=[1 3 5 7] and we normalize input 5, then

(v(3)-(min(v)))*(1-(-1))/(max(v)-min(v))+(-1)

is the formula I should follow. How about, v is uniform, thus generates a zero denominator in the formula?

JD

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Image Analyst on 9 Oct 2016

If it's uniform (all the same value), do you want the output value to be -1, 0, 1, or something else? It can be only one number, unless of course you just want to ignore it and replace the whole thing by random numbers or some other scheme.

JohnDylon on 9 Oct 2016

I thought to assign 0 for the uniform vector, however this made me think of what the difference should be between [1000 1000 1000] and [2 2 2] if I scale down them to same number between [-1,1]? If I do that, I loose information.

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Answer 1

Jan on 9 Oct 2016

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A normalization requires a range of data. Either this range is predefined or it is determined by the values. A single number or a vector of equal numbers does not have a range. Therefore a normalization requires a predefined knowledge of the possible range of values. Without knowing "min(v)" and "max(v)", a normalization is not possible.

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JohnDylon on 9 Oct 2016

You are right, however from scaling up or down point of view, there should be a way to represent points that are not in a given interval at another one. I suspect a probability distribution does the job.

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