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Table of Contents
Intro
Preface
Contents
Abbreviations
Chapter 1: Introduction to Signals and Systems
1.1 System
Chapter 2: Basic Signal Functions and Their Manipulations
2.1 Continuous-Time Signals
2.2 Discrete-Time Signals
2.3 Manipulation of Signals
2.3.1 Manipulation of Continuous-Time Signals
Manipulation of Periodic Signals (Functions)
2.3.2 Manipulation of Digital Signals
2.4 Sampling
2.5 Basic Signals Used in Communication and Signal Processing
2.5.1 Representation of Signals with Mathematical Functions
2.5.2 Continuous-Time Basic Signal Functions
Unit Step Function
Unit Delta Step Function
Unit Delta Impulse Function
Unit Impulse Function
2.5.3 Properties of the Impulse Function
Ramp Function
Exponential Function
Sinusoidal Function
Exponentially Damped Sinusoidal Function
Complex Exponential Function
2.5.4 Basic Digital Signal Functions
Unit Step Function
Unit Impulse Function
Ramp Function
Digital Exponential Function
2.6 Electronic Circuits Used in Signal Generation
2.6.1 Passive Circuit Elements
Inductor
Capacitor
Resistor
Unit Step Function
Impulse Function
Sinusoidal Function
2.6.2 Exponential Function
2.6.3 Exponentially Damped Sinusoidal Function
2.6.4 Linear and Time-Invariant Systems
2.6.5 Representation of Linear and Time-Invariant System with Differential Equations
Problems
Chapter 3: Energy, Power, Convolution, and Systems
3.1 Energy and Power in Signals
3.1.1 Energy and Power in Continuous-Time Signals
Instantaneous Power
Total Energy
Average Power
3.1.2 Energies and Powers of Discrete-Time Signals
Instantaneous Power
Total Energy
Average Power
3.2 Convolution
3.2.1 Convolution of Continuous-Time Signals
3.2.2 Impulse Function and Convolution
3.2.3 Convolution of Digital Signals
3.2.4 Convolution of Digital Signals
3.2.5 Digital Impulse Signal (Function) and Convolution Operation
3.3 Systems and Their Features
3.3.1 Mathematical Expressions of the Systems
3.3.2 Causality
3.3.3 Memory
3.3.4 Stability
3.3.5 Invertibility
3.3.6 Linearity
3.3.7 Time Invariance
3.3.8 Time Domain Representations of Linear and Time-Invariant Systems
3.3.9 The Relationship Between Impulse and Unit Step Responses of a Linear and Time-Invariant System
3.3.10 The Response of a Linear and Time-Invariant System to an Exponential Signal
3.3.11 Determining the Properties of a Linear and Time-Invariant System from Impulse Response
Memory
Causality
Stability
3.3.12 Representation of Linear and Time-Invariant Systems with Differential and Difference Equations
Continuous-Time Systems
Digital Systems
3.3.13 Solving Differential and Difference Equations of Linear and Time-Invariant Systems
Differential Equation Solution
Preface
Contents
Abbreviations
Chapter 1: Introduction to Signals and Systems
1.1 System
Chapter 2: Basic Signal Functions and Their Manipulations
2.1 Continuous-Time Signals
2.2 Discrete-Time Signals
2.3 Manipulation of Signals
2.3.1 Manipulation of Continuous-Time Signals
Manipulation of Periodic Signals (Functions)
2.3.2 Manipulation of Digital Signals
2.4 Sampling
2.5 Basic Signals Used in Communication and Signal Processing
2.5.1 Representation of Signals with Mathematical Functions
2.5.2 Continuous-Time Basic Signal Functions
Unit Step Function
Unit Delta Step Function
Unit Delta Impulse Function
Unit Impulse Function
2.5.3 Properties of the Impulse Function
Ramp Function
Exponential Function
Sinusoidal Function
Exponentially Damped Sinusoidal Function
Complex Exponential Function
2.5.4 Basic Digital Signal Functions
Unit Step Function
Unit Impulse Function
Ramp Function
Digital Exponential Function
2.6 Electronic Circuits Used in Signal Generation
2.6.1 Passive Circuit Elements
Inductor
Capacitor
Resistor
Unit Step Function
Impulse Function
Sinusoidal Function
2.6.2 Exponential Function
2.6.3 Exponentially Damped Sinusoidal Function
2.6.4 Linear and Time-Invariant Systems
2.6.5 Representation of Linear and Time-Invariant System with Differential Equations
Problems
Chapter 3: Energy, Power, Convolution, and Systems
3.1 Energy and Power in Signals
3.1.1 Energy and Power in Continuous-Time Signals
Instantaneous Power
Total Energy
Average Power
3.1.2 Energies and Powers of Discrete-Time Signals
Instantaneous Power
Total Energy
Average Power
3.2 Convolution
3.2.1 Convolution of Continuous-Time Signals
3.2.2 Impulse Function and Convolution
3.2.3 Convolution of Digital Signals
3.2.4 Convolution of Digital Signals
3.2.5 Digital Impulse Signal (Function) and Convolution Operation
3.3 Systems and Their Features
3.3.1 Mathematical Expressions of the Systems
3.3.2 Causality
3.3.3 Memory
3.3.4 Stability
3.3.5 Invertibility
3.3.6 Linearity
3.3.7 Time Invariance
3.3.8 Time Domain Representations of Linear and Time-Invariant Systems
3.3.9 The Relationship Between Impulse and Unit Step Responses of a Linear and Time-Invariant System
3.3.10 The Response of a Linear and Time-Invariant System to an Exponential Signal
3.3.11 Determining the Properties of a Linear and Time-Invariant System from Impulse Response
Memory
Causality
Stability
3.3.12 Representation of Linear and Time-Invariant Systems with Differential and Difference Equations
Continuous-Time Systems
Digital Systems
3.3.13 Solving Differential and Difference Equations of Linear and Time-Invariant Systems
Differential Equation Solution