Difference between revisions of "Syllabus for Machine Learning 10-601 in Fall 2014"

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| Mon-Tues 9/22-23 || [[10-601 Perceptrons and Voted Perceptrons|The Perceptron algorithm]] || William || William's also lecturing in Ziv's class on Mon
 
| Mon-Tues 9/22-23 || [[10-601 Perceptrons and Voted Perceptrons|The Perceptron algorithm]] || William || William's also lecturing in Ziv's class on Mon
 
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| W 9/18 || [[10-601 SVMS|SVMs and Margin Classifiers]] || William ||   HW3: [http://curtis.ml.cmu.edu/w/courses/images/c/ce/10601-13F-assignment_3.pdf Logistic Regression]  Download: [http://curtis.ml.cmu.edu/w/courses/images/3/3a/Handout.mat data]  (due Sept. 25th via Autolab) [http://curtis.ml.cmu.edu/w/courses/images/d/d4/Hw3_solution_example.zip example solution]
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| Thurs 9/25 || Neural networks and Deep Belief Networks || William || ''slides will be updated''
 
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| W 9/25 || [http://curtis.ml.cmu.edu/w/courses/images/8/8a/Lecture7-dnn.pdf Neural networks and Deep Belief Networks] || Eric || HW4: [http://curtis.ml.cmu.edu/w/courses/images/a/a2/10601-13F-assignment_4.pdf Linear Regression]  Download: [http://curtis.ml.cmu.edu/w/courses/images/d/da/Assignment4-handout.mat data]  (due Oct. 2nd ('''Before lecture''') via Autolab)
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| Mon-Tues 9/30-10/1 || SVMs and Margin Classifiers || Ziv ||   Ziv's also lecturing in Ziv's class on Mon: lecture will be updated
 
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|-  
 
| M 9/30 || [[10-601 K-NN And Trees|K-NN, Decision Trees, and Rule Learning]] || William ||
 
| M 9/30 || [[10-601 K-NN And Trees|K-NN, Decision Trees, and Rule Learning]] || William ||

Revision as of 16:12, 11 July 2014

This is the syllabus for Machine Learning 10-601 in Fall 2014.

Schedule

Schedule for 10-601 in Fall 2013
Date of lecture Topic Lecturer Assignment/Notes
Tues 9/2 Overview and Intro to Probability William
Thurs 9/4 Classification and K-NN William slides will be updated
Tues 9/9 Decision Trees, and Rule Learning William slides will be updated
Thurs 9/11 The Naive Bayes algorithm William
Tues 9/16 Linear Regression William slides will be updated
Thurs 9/18 Logistic Regression William
Mon-Tues 9/22-23 The Perceptron algorithm William William's also lecturing in Ziv's class on Mon
Thurs 9/25 Neural networks and Deep Belief Networks William slides will be updated
Mon-Tues 9/30-10/1 SVMs and Margin Classifiers Ziv Ziv's also lecturing in Ziv's class on Mon: lecture will be updated
M 9/30 K-NN, Decision Trees, and Rule Learning William
W 10/2 Evaluating and Comparing Classifiers Experimentally William HW5: Compare classifiers Download: data1 data2 (due Oct. 9th (Before lecture) via Autolab) Example code: [1]
M 10/7 PAC Learning Eric (William out)
W 10/9 Bias-Variance Decomposition Eric (William out) HW6: PAC and VC dimension
M 10/14 Ensemble Methods 1 William
W 10/16 Ensemble Methods 2 William Project description: [2] and Project Milestone 1
M 10/21 Unsupervised Learning: k-Means and Mixtures Eric
W 10/23 Unsupervised Learning: Dimensionality Reduction Eric

Project milestone 2: Description, Classifier assignments, and Datasets for Milestone 2

M 10/28 Semi-Supervised Learning William
W 10/30 Collaborative Filtering and Matrix Factorization William Project milestone 3 Milestone3 Handout
M 11/4 Graphical Models 1 Eric
W 11/6 Graphical Models 2 Eric HW7: Graphical Models (due Nov. 13th before class via BlackBoard)
M 11/11 HMMS, Sequences, and Structured Output Prediction William
W 11/13 d-separation, Explaining away, and Topic Models William Project milestone 4
M 11/18 Network Models Eric
W 11/20 Review Session/Special Topics Eric
M 11/25 Not-quite-final Exam

ExamSolutions

W 11/27 No class - Thanksgiving
M 12/2 Markov Decision Processes and Reinforcement Learning Eric
W 12/4 Scalable Learning and Parallelization William Milestones 5-6 Description
Mon 12/9 Milestone 5 due
Tue 12/10 Milestone 6 (writeup) due

To other instructors: if you'd like to use any of the materials found here, you're absolutely welcome to do so, but please acknowledge their ultimate source somewhere.

Section-by-Section

Linear Classifiers

A probabilistic view of linear classification:

Another view of classification:

Summary:

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