Difference between revisions of "10-601 Matrix Factorization"

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(Created page with "This a lecture used in the Syllabus for Machine Learning 10-601 in Fall 2014 === Slides === * [http://www.cs.cmu.edu/~wcohen/10-601/pca+mf.pptx Slides in PowerPoint]. =...")
 
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** How to interpret the prototypes in the case of dimension reduction for images.
 
** How to interpret the prototypes in the case of dimension reduction for images.
 
** How to interpret the prototypes in the case of collaborative filtering, and completion of a ratings matrix.
 
** How to interpret the prototypes in the case of collaborative filtering, and completion of a ratings matrix.
 +
* How PCA and MF relate to k-means and and EM.

Revision as of 11:38, 11 November 2014

This a lecture used in the Syllabus for Machine Learning 10-601 in Fall 2014

Slides

Readings

  • PCA is not covered in Mitchell. Bishop chapter 12 is optional reading.
  • There are also some notes on PCA/SVD that I've written up.
  • There's a nice description of the gradient-based approach to MF, and a scheme for parallelizing it,by Gemulla et al.

Summary

You should know:

  • What PCA is, and how it relates to matrix factorization.
  • What loss function and constraints are associated with PCA - i.e., what the "PCA Problem" is.
  • How to interpret the low-dimensional embedding of instances, and the "prototypes" produced by PCA and MF techniques.
    • How to interpret the prototypes in the case of dimension reduction for images.
    • How to interpret the prototypes in the case of collaborative filtering, and completion of a ratings matrix.
  • How PCA and MF relate to k-means and and EM.