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Local Binary Pattern in MATLAB

I would like to implement uniform LBP. This is the definiton given by wikipedia for uniform LBP.

A local binary pattern is called uniform if the binary pattern contains at most two bitwise transitions from 0 to 1 or vice versa when the bit pattern is traversed circularly. For example, the patterns 00000000 (0 transitions), 01110000 (2 transitions) and 11001111 (2 transitions) are uniform whereas the patterns 11001001 (4 transitions) and 01010010 (6 transitions) are not. In the computation of the LBP labels, uniform patterns are used so that there is a separate label for each uniform pattern and all the non-uniform patterns are labeled with a single label. For example, when using (8,R) neighborhood, there are a total of 256 patterns, 58 of which are uniform, which yields in 59 different labels.

I have written code for LBP but not sure how to convert it to a uniform LBP. Below is the code for LBP.

for i=2:m-1
    for j=2:n-1


Any help would be appreciated. I am using MATLAB.

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migrated from dsp.stackexchange.com Sep 29 '11 at 21:29

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marked as duplicate by Jeff Atwood Oct 3 '11 at 12:02

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Are you more interested in understanding the concept of Uniform LBP, or do you already understand it, but just don't know how to modify the code? –  datageist Sep 29 '11 at 19:12
Understand the concept but not sre how to modify the code.. –  cnn lakshmen Sep 29 '11 at 20:04
In that case, this question is still a better fit for StackOverflow. I'm going to migrate this one over there so you don't have to delete/re-post this time. –  datageist Sep 29 '11 at 21:27

2 Answers 2

up vote 2 down vote accepted


  1. Your next step is to construct a lookup table for the values that are stored into LBP.
    • The lookup table maps the 256 possible combinations into 59 different labels.
    • If speed is not important, the table can be built with a for-loop.
  2. Map LBP into the 59 labels using the table.
    • labeled = table(LBP) % this is called table lookup or MATLAB indexing.
  3. Perform any additional work with those 59 labels.

Suggestions (although not necessary for implementation)

  1. There is no need to use a 2D matrix for I3. The eight neighbors of the current pixel are local to the current pixel you are processing; therefore you can simply assign them to I3(1), I3(2), ... I3(8) because they will be reassigned each time you move on to the next center pixel (i,j).

function table = BitwiseToLBP
    % we reserve label 0 for non-uniform
    table = zeros(1, 256);
    nextLabel = 1;
    for k = 1:256,
        bits = bitand(k, 2.^(0:7)) > 0;
        if IsUniformLBP(bits),
            table(k) = nextLabel;
            nextLabel = nextLabel + 1;
            table(k) = 0;

function IsUniformLBP(bits)
    nnz(diff(bits([1:end, 1]))) == 2;
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thanks for the suggestion... very good one...didnt think of that... –  cnn lakshmen Sep 30 '11 at 18:12
just like to ask you a question.. bits = bitand(k, 2.^(0:7)) > 0; what does this line do? –  cnn lakshmen Oct 10 '11 at 20:36
An anomymous user proposed an edit which should have been a comment (but is too long to fit in a single comment): " I'm not so sure, but I think there might be a mistake in the code, I tried and I only get 56 different values, where non of them is repeatable, I believe there should be 58 different values, (its 59 including one bin for all non-uniform patterns)." ... –  Keith Thompson Jan 22 '12 at 23:26
This code works perfect, but it needs a small bug fix. According to paper citeseerx.ist.psu.edu/showciting?cid=4608087, uniform patterns have at most 2 bit transitions. Therefore, nnz(diff(bits([1:end, 1]))) == 2; should be nnz(diff(bits([1:end, 1]))) <= 2; –  Oki Dec 16 '12 at 3:57
Its been a long time, but there are actually 2 issues. Firstly, as @oki mentioned, nnz(diff(bits([1:end, 1]))) == 2; should be nnz(diff(bits([1:end, 1]))) <= 2. Moreover, k should run from 0 to 255. And since MATLAB does not index from 0, you would have to index into (k+1) for the table –  user929404 Aug 20 at 15:16

I tried this code:

 sum = abs(I3(k-1,l-1)-I3(k-1,l))+ abs(I3(k-1,l)-I3(k-1,l+1))+ abs(I3(k-1,l+1)-I3(k,l+1))+ abs(I3(k,l+1)-I3(k+1,l+1))+abs(I3(k+1,l+1)-I3(k+1,l))+abs(I3(k+1,l)-I3(k+1,l-1))+abs(I3(k+1,l-1)-I3(k,l-1));
    if(sum <=2)
            UniformHist = [UniformHist Hist];
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