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! scope="col" | Topic
 
! scope="col" | Topic
 
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|-
| 1  
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| [[Lecture1ECE662S10|1]]
 
| 1. Introduction
 
| 1. Introduction
 
|-
 
|-
| 1  
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| [[Lecture1ECE662S10|1]]
 
| 2. What is pattern Recognition
 
| 2. What is pattern Recognition
 
|-
 
|-
| 2-3  
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| [[Lecture2ECE662S10|2]],[[Lecture3ECE662S10|3]]
 
| 3. Finite vs Infinite feature spaces
 
| 3. Finite vs Infinite feature spaces
 
|-
 
|-
| 4-5  
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| [[Lecture4ECE662S10|4]],[[Lecture5ECE662S10|5]]
 
| 4. Bayes Rule
 
| 4. Bayes Rule
 
|-
 
|-
| 6-10  
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| [[Lecture6ECE662S10|6]]-10  
 
|  
 
|  
 
5. Discriminant functions  
 
5. Discriminant functions  
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| 11-13  
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| [[Lecture11ECE662S10|11]],12,13  
 
|  
 
|  
 
6. Parametric Density Estimation  
 
6. Parametric Density Estimation  
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| 19-22  
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| 19,20,[[Lecture21ECE662S10|21]], [[Lecture22ECE662S10|22]]
 
| 8. Linear Discriminants
 
| 8. Linear Discriminants
 
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|-
|  
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| [[Lecture22ECE662S10|22]], [[Lecture23ECE662S10|23]] ,[[Lecture24ECE662S10|24]],[[Lecture25ECE662S10|25]],[[Lecture26ECE662S10|26]]
 
|  
 
|  
 
9. Non-Linear Discriminant functions  
 
9. Non-Linear Discriminant functions  
  
 
*Support Vector Machines   
 
*Support Vector Machines   
*Artificial Neural Networks  
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*Artificial Neural Networks
*Decision Trees
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|-
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| 27,28,29,30
| 10. Clustering
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| 10. Clustering and decision trees
 
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Latest revision as of 07:55, 22 April 2010


Course Outline, ECE662 Spring 2010 Prof. Mimi

Note: This is an approximate outline that is subject to change throughout the semester.


Lecture Topic
1 1. Introduction
1 2. What is pattern Recognition
2,3 3. Finite vs Infinite feature spaces
4,5 4. Bayes Rule
6-10

5. Discriminant functions

  • Definition;
  • Application to normally distributed features;
  • Error analysis.
11,12,13

6. Parametric Density Estimation

  • Maximum likelihood estimation
  • Bayesian parameter estimation
13-19

7. Non-parametric Density Estimation

  • Parzen Windows
  • K-nearest neighbors
  • The nearest neighbor classification rule.
19,20,21, 22 8. Linear Discriminants
22, 23 ,24,25,26

9. Non-Linear Discriminant functions

  • Support Vector Machines 
  • Artificial Neural Networks
27,28,29,30 10. Clustering and decision trees



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