Difference between revisions of "10-601 Classification and K-NN"

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** Bayes decision boundary for classification
 
** Bayes decision boundary for classification
 
** Is there an optimal classifier?
 
** Is there an optimal classifier?
** ''What decision boundary is defined by K-NN, and how it compares to decision boundaries of linear classifiers.''
+
** What decision boundary is defined by K-NN.
 
** Probabilistic interpretation of KNN decisions
 
** Probabilistic interpretation of KNN decisions

Revision as of 09:35, 16 September 2014

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

Slides

Readings

  • Mitchell, Chapters 1,2 and 8.

What You Should Know Afterward

  • What is the goal of classification
  • What sorts of problems can be solved by reducing them to classification
  • What the K-NN algorithm is.
  • How the value of K affects the tendency of K-NN to overfit or underfit data.
  • Optional:
    • Bayes decision boundary for classification
    • Is there an optimal classifier?
    • What decision boundary is defined by K-NN.
    • Probabilistic interpretation of KNN decisions