ECE301 Matlab Session Contents of Lathi

ECE301 Matlab Session Contents of Lathi


Last modified: Mon Jun 26 21:47:17 EDT 2006

Matlab Session Contents

MATLAB Session B: Elementary Operations
B.M.1. MATLAB Overview
B.M.2. Calculator Operations
B.M.3. Vector Operations
B.M.4. Simple Plotting
B.M.5. Element-by-Element Operations
B.M.6. Matrix Operations
B.M.7. Partial Fraction Expansions
 
MATLAB Session 1: Working with Functions
1.M.1. Inline Functions
1.M.2. Relational Operators and the Unit Step Function
1.M.3. Visualizing Operations on the Independent Variable
1.M.4. Numerical Integration and Estimating Signal Energy
 
MATLAB Session 2: M-Files
2.M.1. Script M-Files
2.M.2. Function M-Files
2.M.3. For Loops
2.M.4. Graphical Understanding of Convolution
 
MATLAB Session 3: Discrete-Time Signals and Systems
3.M.1. Discrete-Time Functions and Stem Plots
3.M.2. System Responses Through Filtering
3.M.3. A Custom Filter Function
3.M.4. Discrete-Time Convolution
 
MATLAB Session 4: Continuous-Time Filters
4.M.1. Frequency Response and Polynomial Evaluation
4.M.2. Design and Evaluation of a Simple RC Filter
4.M.3. A Cascaded RC Filter and Polynomial Expansion
4.M.4. Butterworth Filters and the FIND Command
4.M.5. Butterworth Filter Realization Using Cascaded Second.Order Sections
4.M.6. Chebyshev Filters
 
MATLAB Session 5: Discrete-Time IIR Filters
5.M.1. Frequency Response and Pole-Zero Plots
5.M.2. Transformation Basics
5.M.3. Transformation by First-Order Backward Difference
5.M.4. Bilinear Transformation
5.M.5. Bilinear Transformation with Prewarping
5.M.6. Example: Butterworth Filter Transformation
5.M.7. Problems Finding Polynomial Roots
5.M.8. Improved Design Using Cascaded Second-Order Sections
 
MATLAB Session 6: Fourier Series Applications
6.M.1. Periodic Functions and the Gibbs Phenomenon
6.M.2. Optimization and Phase Spectra
 
MATLAB Session 7: Fourier Transform Topics
7.M.1. The Sinc Function and the Scaling Property
7.M.2. Parseval's Theorem and Essential Bandwidth
7.M.3. Spectral Sampling
7.M.4. Kaiser Window Functions
 
MATLAB Session 8: The Discrete Fourier Transform
8.M.1. Computing the Discrete Fourier Transform
8.M.2. Improving the Picture with Zero-Padding
8.M.3. Quantization
 
MATLAB Session 9: Working with the DTFS and the DTFT
9.M.1. Computing the Discrete-Time Fourier Series
9.M.2. Measuring Code Performance
9.M.3. FIR Filter Design by Frequency Sampling
 
MATLAB Session 10: Toolboxes and State-Space Analysis
10.M.1. z -Transform Solutions to Discrete-Time State-Space Systems
10.M.2. Transfer Functions from State-Space Representations
10.M.3. Controllability and Observability of Discrete-Time Systems
10.M.4. Matrix Exponentiation and the Matrix Exponential