Signals and Systems - Table of Contents
Offering: Signals and Systems
Titles: Signals and Systems
By Dr. Andrew Heunis
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1. Introduction to Signals and Systems
- 1.0 - Introduction
- 1.1 - Signals
- 1.2 - Systems
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2. Time Domain Analysis of Continuous Time Linear Systems
- 2.0 - Introduction
- 2.1 - The Impulse Function
- 2.2 - The Impulse Response
- 2.3 - Linear Differential Equations
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3. Frequency Domain Analysis of Continuous Time Linear Systems
- 3.0 - Introduction
- 3.1 - Definition of the Laplace Transform
- 3.2 - Properties of Laplace Transforms
- 3.3 - Inverse Laplace Transforms
- 3.4 - Rational Functions and the Method of Partial Fractions
- 3.5 - Zero-Input and Zero-State Response by Laplace Transforms
- 3.6 - Electrical Networks
- 3.7 - System Transfer Function
- 3.8 - Frequency Response
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4. Time and Frequency Domain Analysis of Discrete Time Linear Systems
- 4.0 - Introduction
- 4.1 - Examples of Discrete Time Signals and Systems
- 4.2 - The Discrete Time Impulse Function
- 4.3 - The Discrete Time Impulse Response
- 4.4 - Linear Difference Equations
- 4.5 - The Method of Z-Transforms
- 4.6 - Zero-Input and Zero-State Response by Z-Transforms
- 4.7 - Discrete Time System Transfer Function
- 4.8 - Discrete-Time Frequency Response
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5. Periodic Inputs and Fourier Series
- 5.0 - Introduction
- 5.1 - Exponential Fourier Series
- 5.2 - Periodic Inputs
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6. Non-Periodic Inputs and Fourier Transforms
- 6.0 - Introduction
- 6.1 - From Fourier Series to Fourier Transforms
- 6.2 - Properties of Fourier Transforms
- 6.3 - Signal Energy and the Parseval Theorem
- 6.4 - Systems and Non-Periodic Inputs
- 6.5 - Frequency Response Function
- 6.6 - Distortionless Systems
- 6.7 - The ideal Filter
- 6.8 - Application: Amplitude Modulation