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=[[ECE302]] Course Outline, Spring 2013, Prof. [[user:mboutin|Boutin]]=
 
=[[ECE302]] Course Outline, Spring 2013, Prof. [[user:mboutin|Boutin]]=
 
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==Part 1: To be tested in the first intra-semestrial exam==
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==Part 1: Foundations (To be tested in the first intra-semestrial exam)==
Week 1-3
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Week 1-3 (Lecture [[Lecture1_blog_ECE302S13_Boutin|1]],
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[[Lecture2_blog_ECE302S13_Boutin|2]],
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[[Lecture3_blog_ECE302S13_Boutin|3]],
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[[Lecture4_blog_ECE302S13_Boutin|4]],
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[[Lecture5_blog_ECE302S13_Boutin|5]],
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[[Lecture6_blog_ECE302S13_Boutin|6]],
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[[Lecture7_blog_ECE302S13_Boutin|7]],
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[[Lecture8_blog_ECE302S13_Boutin|8]],
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[[Lecture9_blog_ECE302S13_Boutin|9]])
  
 
*1.1 Sets
 
*1.1 Sets
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:[http://cnx.org/content/m11245/latest/ Foundations of Probability Theory: Basic Definitions], module by Don Johnson posted on [http://www.cnx.org Connexions]
 
:[http://cnx.org/content/m11245/latest/ Foundations of Probability Theory: Basic Definitions], module by Don Johnson posted on [http://www.cnx.org Connexions]
  
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----
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==Part 2: Discrete Random Variables (To be tested in the second intra-semestrial exam)==
  
==Part 2: To be tested in the second intra-semestrial exam==
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Week 4-10
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Week 4-5(6) (Lecture [[Lecture10_blog_ECE302S13_Boutin|10]],[[Lecture11_blog_ECE302S13_Boutin|11]],
*Random Variables
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[[Lecture12_blog_ECE302S13_Boutin|12]],
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[[Lecture13_blog_ECE302S13_Boutin|13]],
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[[Lecture14_blog_ECE302S13_Boutin|14]],
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[[Lecture15_blog_ECE302S13_Boutin|15]],
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[[Lecture16_blog_ECE302S13_Boutin|16]],
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([[Lecture17_blog_ECE302S13_Boutin|17]]) )
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*2.1 Definition and examples
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*2.2  Functions of a discrete random variable
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*2.3 Moments of  discrete random variable (expectation, variance)
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*2.4 Conditioning of a discrete random variable
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*2.5 Independence of discrete random variables
  
 
Suggested References
 
Suggested References
:Chapter 3,4,5,6 in the textbook
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:Chapter 3 in the textbook
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:Chapter 2 in "[http://www.athenasc.com/probbook.html Introduction to Probability]," by Dimitri P. Bertsekas and John N. Tsitsiklis. Athena Scientific, Belmont, Massachusetts, 2008, ISBN 978-1-886529-23-6.
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:Chapter 4 of [http://cnx.org/content/col10522/latest Collaborative Statistics] by  Illowski and Dean (available online)
  
==Part 3: To be tested in the final exam==
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----
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==Part 3: Continuous Random Variables (To be tested in the second intra-semestrial exam)==
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Week (6)7- ? (Lecture ([[Lecture17_blog_ECE302S13_Boutin|17]]) [[Lecture18_blog_ECE302S13_Boutin|18]],[[Lecture19_blog_ECE302S13_Boutin|19]],[[Lecture20_blog_ECE302S13_Boutin|20]],... )
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*3.1 Definition of continuous random variable, probability density function.
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*3.2 Moments of a continuous random variables (expectation, variance)
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*3.3 The cumulative distribution function of a random variable (discrete or continuous)
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*3.4 Normally distributed random variables.
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*3.5 Focus on 2D random variables: expectation, conditioning, and independence.
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*3.6 Function of a random variable
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*3.7 Moment Generating (Characteristic) Function (for 1D discrete/continuous random variables)
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*3.8 Pairs of jointly Gaussian Variables
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Suggested References
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:Chapter 4,5,6 in the textbook
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:This [http://www.athenasc.com/Bivariate-Normal.pdf tutorial on the bivariate normal] (from a supplement to "[http://www.athenasc.com/probbook.html Introduction to Probability]," by Dimitri P. Bertsekas and John N. Tsitsiklis. Athena Scientific, Belmont, Massachusetts, 2008, ISBN 978-1-886529-23-6).
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==Part 4: Random Processes (To be tested in the final exam)==
 
Week 11-15
 
Week 11-15
*Stochastic Processes
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*4.1 Introduction, Definition of Random Processes (CT and DT)
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*4.2 Characteristics of Random Processes
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*4.3 Examples of DT Random Processes; Sum Processes
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*4.4 The Poisson Random Process and its relationship to Binomial Counting
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*4.5 LTI systems and Random Processes
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:Chapter 9,10 in the textbook.
 
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[[2013_Spring_ECE_302_Boutin|Back to ECE302 Spring 2013 Prof. Boutin]]
 
[[2013_Spring_ECE_302_Boutin|Back to ECE302 Spring 2013 Prof. Boutin]]

Latest revision as of 09:18, 17 April 2013


ECE302 Course Outline, Spring 2013, Prof. Boutin


Part 1: Foundations (To be tested in the first intra-semestrial exam)

Week 1-3 (Lecture 1, 2, 3, 4, 5, 6, 7, 8, 9)

  • 1.1 Sets
    • Definition
    • Operations
    • De Morgan's Law
  • 1.2 Probability Models
    • Sample spaces
    • Probability Laws (axioms, properties
  • 1.3 Conditional Probabilities
  • 1.4 Independence
  • 1.5 Bernoulli Trials
  • 1.6 Counting

Suggested references:

Chapter 1 and 2 of the textbook,
Chapter 1 of "Introduction to Probability," by Dimitri P. Bertsekas and John N. Tsitsiklis. Athena Scientific, Belmont, Massachusetts, 2008, ISBN 978-1-886529-23-6.
Foundations of Probability Theory: Basic Definitions, module by Don Johnson posted on Connexions

Part 2: Discrete Random Variables (To be tested in the second intra-semestrial exam)

Week 4-5(6) (Lecture 10,11, 12, 13, 14, 15, 16, (17) )

  • 2.1 Definition and examples
  • 2.2 Functions of a discrete random variable
  • 2.3 Moments of discrete random variable (expectation, variance)
  • 2.4 Conditioning of a discrete random variable
  • 2.5 Independence of discrete random variables

Suggested References

Chapter 3 in the textbook
Chapter 2 in "Introduction to Probability," by Dimitri P. Bertsekas and John N. Tsitsiklis. Athena Scientific, Belmont, Massachusetts, 2008, ISBN 978-1-886529-23-6.
Chapter 4 of Collaborative Statistics by Illowski and Dean (available online)

Part 3: Continuous Random Variables (To be tested in the second intra-semestrial exam)

Week (6)7- ? (Lecture (17) 18,19,20,... )

  • 3.1 Definition of continuous random variable, probability density function.
  • 3.2 Moments of a continuous random variables (expectation, variance)
  • 3.3 The cumulative distribution function of a random variable (discrete or continuous)
  • 3.4 Normally distributed random variables.
  • 3.5 Focus on 2D random variables: expectation, conditioning, and independence.
  • 3.6 Function of a random variable
  • 3.7 Moment Generating (Characteristic) Function (for 1D discrete/continuous random variables)
  • 3.8 Pairs of jointly Gaussian Variables

Suggested References

Chapter 4,5,6 in the textbook
This tutorial on the bivariate normal (from a supplement to "Introduction to Probability," by Dimitri P. Bertsekas and John N. Tsitsiklis. Athena Scientific, Belmont, Massachusetts, 2008, ISBN 978-1-886529-23-6).

Part 4: Random Processes (To be tested in the final exam)

Week 11-15

  • 4.1 Introduction, Definition of Random Processes (CT and DT)
  • 4.2 Characteristics of Random Processes
  • 4.3 Examples of DT Random Processes; Sum Processes
  • 4.4 The Poisson Random Process and its relationship to Binomial Counting
  • 4.5 LTI systems and Random Processes
Chapter 9,10 in the textbook.

Back to ECE302 Spring 2013 Prof. Boutin

Alumni Liaison

Ph.D. on Applied Mathematics in Aug 2007. Involved on applications of image super-resolution to electron microscopy

Francisco Blanco-Silva