Revision as of 07:54, 9 March 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. Discriminate functions - Definition; - Application to normally distributed features; - Error analysis.
11-12	6. Parametric Density Estimation -Maximum likelihood estimation -Bayesian parameter estimation
	7. Non-parametric Density Estimation -Parzen Windows -K-nearest neighbors -The nearest neighbor classification rule.
	8. Linear Discriminants
	9. SVM
	10. ANN
	11. Decision Trees
	12. Clustering

Back to 2010 Spring ECE 662 mboutin

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-[[Category:2010_Spring_ECE_662_mboutin]]
+<br>
-= Course Outline, [[ECE662]] Spring 2010 [[User:mboutin|Prof. Mimi]]  =
+= Course Outline, [[ECE662]] Spring 2010 [[User:Mboutin|Prof. Mimi]]  =
-Note: This is an approximate outline that is subject to change throughout the semester.
+Note: This is an approximate outline that is subject to change throughout the semester.
+<br>
+{| width="55%" border="1" cellpadding="1" cellspacing="1"
+|-
+! scope="col" | Lecture
+! scope="col" | 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
+|
+. Discriminate functions
+- Definition;
+- Application to normally distributed features;
+- Error analysis.
+|-
+| 11-12
+|
+. Parametric Density Estimation
+-Maximum likelihood estimation
+-Bayesian parameter estimation
+|-
+|
+|
+. Non-parametric Density Estimation
+-Parzen Windows
+-K-nearest neighbors
+-The nearest neighbor classification rule.
+|-
+|
+| 8. Linear Discriminants
+|-
+|
+| 9. SVM
+|-
+|
+| 10. ANN
+|-
+|
+| 11. Decision Trees
+|-
+|
+| 12. Clustering
+|}
+<br>
 ----
   [[2010 Spring ECE 662 mboutin|Back to 2010 Spring ECE 662 mboutin]]
+[[Category:2010_Spring_ECE_662_mboutin]]