I'm implementing PCA using eigenvalue decomposition for sparse data. I know matlab has PCA implemented, but it helps me understand all the technicalities when I write code. I've been following the guidance from here, but I'm getting different results in comparison to built-in function princomp.

Could anybody look at it and point me in the right direction.

Here's the code:

function [mu, Ev, Val ] = pca(data)

% mu - mean image
% Ev - matrix whose columns are the eigenvectors corresponding to the eigen
% values Val 
% Val - eigenvalues

if nargin ~= 1
 error ('usage: [mu,E,Values] = pca_q1(data)');
end

mu = mean(data)';

nimages = size(data,2);

for i = 1:nimages
 data(:,i) = data(:,i)-mu(i);
end

L = data'*data;
[Ev, Vals]  = eig(L);    
[Ev,Vals] = sort(Ev,Vals);

% computing eigenvector of the real covariance matrix
Ev = data * Ev;

Val = diag(Vals);
Vals = Vals / (nimages - 1);

% normalize Ev to unit length
proper = 0;
for i = 1:nimages
 Ev(:,i) = Ev(:,1)/norm(Ev(:,i));
 if Vals(i) < 0.00001
  Ev(:,i) = zeros(size(Ev,1),1);
 else
  proper = proper+1;
 end;
end;

Ev = Ev(:,1:nimages);
up vote 11 down vote accepted

Here's how I would do it:

function [V newX D] = myPCA(X)
    X = bsxfun(@minus, X, mean(X,1));           %# zero-center
    C = (X'*X)./(size(X,1)-1);                  %'# cov(X)

    [V D] = eig(C);
    [D order] = sort(diag(D), 'descend');       %# sort cols high to low
    V = V(:,order);

    newX = X*V(:,1:end);
end

and an example to compare against the PRINCOMP function from the Statistics Toolbox:

load fisheriris

[V newX D] = myPCA(meas);
[PC newData Var] = princomp(meas);

You might also be interested in this related post about performing PCA by SVD.

  • I want to ask something, Is princomp sorts the data of COEFF by latent by default (ref: mathworks.com/help/stats/princomp.html)? What is the difference between your function and princomp – user3396151 Jun 3 '14 at 19:08
  • I want to use coeff and latent where coeff is sorted with latents. May I use the built-in function princomp or your myPCA ?? – user3396151 Jun 3 '14 at 19:14
  • @AhsanAli: obviously as the example above shows, both functions produce same output (up to a certain precision); the columns of COEFF (principal components) are sorted in descending order in terms of component variance LATENT. Also check the last link mentioned above about performing PCA using SVD instead of EIG.. Note that princomp is being replaced with pca function in recent editions (in fact check the source code to see that calls to princomp are being routed to pca internally). – Amro Jun 4 '14 at 1:23
  • OKay, what is the difference b/w pca & princomp and also in your function myPCA & PCA by SVD ? I'm unable to differentiate b/w them? What my problem is, I want to compute pca of n matrices of [500x3] where coeff is sorted with latents. – user3396151 Jun 4 '14 at 16:40
  • 2
    @AhsanAli: PCA after all is an orthogonal transformation that transforms the data to a new coordinates system (such that the data has maximum variance along the new directions in decreasing order). The principal components (columns of COEFF matrix) are the vectors that describe the directions of this new system. Now if (I,J,K) is a basis set for the vector space then so is (a*I,b*J,c*K), with a correspondingly changed data coordinates (SCORE matrix). So eigenvectors are not unique (can be independently scaled/multiplied by a constant) as long as they span the same subspace. – Amro Jun 4 '14 at 18:43

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