Basic Signals and Systems
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Description
Book Introduction
Learn without pressure and practice without any gaps
The basics of signals and systems!
This book is primarily intended for undergraduate students majoring in electrical, electronic, and information and communication engineering, and aims to provide an easy and clear understanding of the basic concepts and principles of signals and systems.
We have selected and covered the core concepts that you must know to help you learn signals and systems without burden, and have included abundant examples to ensure a thorough understanding of the core concepts.
Finally, by solving various practice problems, we were able to solidify the fundamentals of signals and systems.
* This book was developed as a textbook for university lectures, so it does not provide solutions to practice problems.
The basics of signals and systems!
This book is primarily intended for undergraduate students majoring in electrical, electronic, and information and communication engineering, and aims to provide an easy and clear understanding of the basic concepts and principles of signals and systems.
We have selected and covered the core concepts that you must know to help you learn signals and systems without burden, and have included abundant examples to ensure a thorough understanding of the core concepts.
Finally, by solving various practice problems, we were able to solidify the fundamentals of signals and systems.
* This book was developed as a textbook for university lectures, so it does not provide solutions to practice problems.
- You can preview some of the book's contents.
Preview
index
CHAPTER 01.
Overview of Signals and Systems
1.1 Introduction to signals and systems
1.2 Concepts of signals and systems
1.3 Representation of signals and systems
1.4 Continuous and Discrete
1.5 Related Basic Concepts
Practice problems
CHAPTER 02.
Classification of signals and systems
2.1 Signal Classification
2.2 Classification of systems
Practice problems
CHAPTER 03.
Basic continuous signals and operations
3.1 Basic continuous signal
3.2 Basic operations on continuous signals
Practice problems
CHAPTER 04.
Time-domain analysis of continuous systems
4.1 Time-domain analysis and system response
4.2 Impulse response and convolutional representation
4.3 Calculation and properties of convolution integrals
4.4 Differential Equations and Continuous LTI Systems
4.5 Impulse response and system characteristics
Practice problems
CHAPTER 05.
Continuous-time Fourier series
5.1 Introduction to Frequency Domain (Fourier) Analysis
5.2 Representation of Frequency and Signal
5.3 Periodic signals and Fourier series
5.4 Fourier series and spectrum
5.5 Properties of Fourier series
Practice problems
CHAPTER 06.
continuous-time Fourier transform
6.1 Overview of the Fourier Transform
6.2 Fourier transform of the main signal
6.3 Properties of Fourier Transforms
6.4 Frequency response
Practice problems
CHAPTER 07.
Laplace transform
7.1 Overview of the Laplace Transform
7.2 Laplace transform of main signals
7.3 Properties of the Laplace Transform
7.4 Inverse Laplace Transform
7.5 Analysis of Differential Equations by Laplace Transform
7.6 Transfer function
Practice problems
CHAPTER 08.
Basic Discrete Signals and Arithmetic
8.1 Basic Discrete Signals
8.2 Basic Operations on Discrete Signals
8.3 Sampling
Practice problems
CHAPTER 09.
Time-domain analysis of discrete systems
9.1 Impulse Response and Convolutional Representation
9.2 Computation and properties of convolution sums
9.3 Analysis of Difference Equations and Discrete LTI Systems
Practice problems
CHAPTER 10.
Discrete-time Fourier series
10.1 Characteristics of Discrete Sinusoidal Signals
10.2 Overview of Discrete-Time Fourier Series (DTFS)
10.3 Properties of discrete-time Fourier series
Practice problems
CHAPTER 11.
Discrete-time Fourier transform
11.1 Overview of the Discrete-Time Fourier Transform (DTFT)
11.2 Discrete-time Fourier transform pairs of primary signals
11.3 Properties of the Discrete-Time Fourier Transform
11.4 Analysis of Discrete Systems Using DTFT
Practice problems
CHAPTER 12.
z transform
12.1 Overview of the z transform
12.2 Z-transform of main signals
12.3 Properties of the z transform
12.4 z inverse transformation
12.5 Differential wave analysis by z-transform
12.6 Transfer Function
Practice problems
supplement
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Overview of Signals and Systems
1.1 Introduction to signals and systems
1.2 Concepts of signals and systems
1.3 Representation of signals and systems
1.4 Continuous and Discrete
1.5 Related Basic Concepts
Practice problems
CHAPTER 02.
Classification of signals and systems
2.1 Signal Classification
2.2 Classification of systems
Practice problems
CHAPTER 03.
Basic continuous signals and operations
3.1 Basic continuous signal
3.2 Basic operations on continuous signals
Practice problems
CHAPTER 04.
Time-domain analysis of continuous systems
4.1 Time-domain analysis and system response
4.2 Impulse response and convolutional representation
4.3 Calculation and properties of convolution integrals
4.4 Differential Equations and Continuous LTI Systems
4.5 Impulse response and system characteristics
Practice problems
CHAPTER 05.
Continuous-time Fourier series
5.1 Introduction to Frequency Domain (Fourier) Analysis
5.2 Representation of Frequency and Signal
5.3 Periodic signals and Fourier series
5.4 Fourier series and spectrum
5.5 Properties of Fourier series
Practice problems
CHAPTER 06.
continuous-time Fourier transform
6.1 Overview of the Fourier Transform
6.2 Fourier transform of the main signal
6.3 Properties of Fourier Transforms
6.4 Frequency response
Practice problems
CHAPTER 07.
Laplace transform
7.1 Overview of the Laplace Transform
7.2 Laplace transform of main signals
7.3 Properties of the Laplace Transform
7.4 Inverse Laplace Transform
7.5 Analysis of Differential Equations by Laplace Transform
7.6 Transfer function
Practice problems
CHAPTER 08.
Basic Discrete Signals and Arithmetic
8.1 Basic Discrete Signals
8.2 Basic Operations on Discrete Signals
8.3 Sampling
Practice problems
CHAPTER 09.
Time-domain analysis of discrete systems
9.1 Impulse Response and Convolutional Representation
9.2 Computation and properties of convolution sums
9.3 Analysis of Difference Equations and Discrete LTI Systems
Practice problems
CHAPTER 10.
Discrete-time Fourier series
10.1 Characteristics of Discrete Sinusoidal Signals
10.2 Overview of Discrete-Time Fourier Series (DTFS)
10.3 Properties of discrete-time Fourier series
Practice problems
CHAPTER 11.
Discrete-time Fourier transform
11.1 Overview of the Discrete-Time Fourier Transform (DTFT)
11.2 Discrete-time Fourier transform pairs of primary signals
11.3 Properties of the Discrete-Time Fourier Transform
11.4 Analysis of Discrete Systems Using DTFT
Practice problems
CHAPTER 12.
z transform
12.1 Overview of the z transform
12.2 Z-transform of main signals
12.3 Properties of the z transform
12.4 z inverse transformation
12.5 Differential wave analysis by z-transform
12.6 Transfer Function
Practice problems
supplement
Search
Detailed image
Publisher's Review
Features of this book
· [Preview] to show the flow of chapters and sections at a glance
· A conversational guide that introduces concepts in a fun way
· [Learning Points] that tell you what and why you are learning
· [Concept Box] that explains key concepts and formulas
· Over 160 [examples] to help you master key concepts
· Abundant [practice problems] presented step by step (Quick Review - Basics - Application)
· [Preview] to show the flow of chapters and sections at a glance
· A conversational guide that introduces concepts in a fun way
· [Learning Points] that tell you what and why you are learning
· [Concept Box] that explains key concepts and formulas
· Over 160 [examples] to help you master key concepts
· Abundant [practice problems] presented step by step (Quick Review - Basics - Application)
GOODS SPECIFICS
- Date of issue: December 20, 2024
- Page count, weight, size: 456 pages | 917g | 188*257*18mm
- ISBN13: 9791173400155
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