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I want to calculate the Hamming distance between vectors which are very high dimensional. A data point is a vector called as the feature. Assuming, each component f_i as an integer, it is represented in its binary form having say j bits. There are n = 900 feature components for each data point. The problem formulation is

Problem

The formula for Hamming distance between 2 different vectors is given in the picture below where j = number of bits

formula

For ex let n = 10 feature components,

f = [3,4,1,4,5,6,6,7,1,14];
g = [1,3,5,6,7,8,11,3,10,2];

Each component / element of the array is represented by its 16 bit binary representation using dec2bin(f_i,l)

I tried using dist = sum((f-g).^2,2)* 1/2^l where l= 16 bits but this does not make sense because there are 2 summations in the formula.

  • Your f has 11 elements, g has 10, and both should be two-dimensional. Can you explain? – Andras Deak Dec 1 '16 at 23:26
  • In my application, they are two dimensional and not integer valued. I wanted to know how to compute distance so that I can later expand it to my full application – Srishti M Dec 1 '16 at 23:29
  • So why are you giving a 1d example if in your application you have 2d? – Andras Deak Dec 1 '16 at 23:29
  • My impression came from your attempt: you have 1/2^l in your expression, but that factor appears as 2^(-j) in the mathematical formula. Where j is the second dimension of b_{ij}! That's why I was asking. If you have 2d arrays bf and bg, it's as easy as a matrix-vector product to compute abs(bf-bg)*1./(2.^(1:l)).' or something similar, then sum that twice. – Andras Deak Dec 1 '16 at 23:49
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If I understand correctly, what you want is

sum(bitxor(f,g))/2^l

where l=16

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