1

I have a set of 2D vectors presented in a n*2 matrix form.

I wish to get the 1st principal component, i.e. the vector that indicates the direction with the largest variance.

I have found a rather detailed documentation on this from Rice University.

Based on this, I have imported the data and done the following:

import numpy as np

dataMatrix = np.array(aListOfLists)   # Convert a list-of-lists into a numpy array.  aListOfLists is the data points in a regular list-of-lists type matrix.
myPCA = PCA(dataMatrix)   # make a new PCA object from a numpy array object

Then how may I get the 3D vector that is the 1st Principal Component?

  • Eigenvectors for 2D input data must be 2D, too. – Anony-Mousse Jul 31 '13 at 10:37
1

PCA gives only 2d vecs from 2d data.

Look at the picture in Wikipedia PCA:
starting with a point cloud (dataMatrix) like that, and using matplotlib.mlab.PCA,
myPCA.Wt[0] is the first PC, the long one in the picture.

  • So are you sure that myPCA.Wt[0] is the first PC? I have a bunch of data sets. As I perform PCA to each data set and plot the 1st PC of each data set, I always end up with only 4 vectors. I am expecting many, since I plot the 1st PC of a lot of data sets. It seems to be due to some unknown scaling behind... – Sibbs Gambling Jul 31 '13 at 9:01
  • Back up, look at the datasets. I'd suggest plotting all the vectors to Wt[0] and Wt[1], together with the point clouds (after PCA centres them). (What's N, what's "a bunch" ?) – denis Jul 31 '13 at 10:16
0

Similar question here: Principal component analysis in Python

Or you could have a look at scikits learn: http://scikit-learn.org/0.13/modules/generated/sklearn.decomposition.PCA.html

  • how are they similar please? I didn't see any similarity there. What I want is very simple, just the 1st component. I suppose it is only a few lines of codes. Please help. :) – Sibbs Gambling Jul 31 '13 at 8:54
0

It isn't obvious from your example that you are using matplotlib.mlab.PCA but if so, the documentation states that the returned object has an attribute Wt, which is "the weight vector for projecting a numdims point or array into PCA space".

PCA returns the eigenvalues in descending order (you can tell by looking at the fracs attribute of the returned object). So the first principal component (first eigenvector) will be the first row of Wt.

As noted by @denis, your eigenvectors will be 2D (not 3D) since your input data are 2D.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.