《現代通信系統——套用MATLAB》是2003年科學出版社出版的圖書,作者是John G.Proakis、Masoud Salehi。
基本信息
國外高校電子信息類優秀教材 | ||||
John G.Proakis[美],Masoud Salehi[美] 著 | ||||
科學出版社 | 2003年4月出版 | |||
定價:36.00 | 語種:英文 | |||
標準書號:7-03-011142-7 | 裝幀:平裝 | |||
版本:第一版 影印版 | 開本:16開 | |||
責任編輯:巴建芬|1 | 字數:637千字 | |||
讀者對象:本科以上文化程度 | 頁數:428 | |||
書類:本科生教育類 | 冊/包:7 | |||
編輯部: 高教工科分社 | ||||
附註: |
內容簡介
本書介紹了MATLAB在現代通信系統中的套用,包括信號與線性系統,隨機過程,模擬調製,模/數轉換,基帶數字傳輸,限寬信道數字傳輸,載波調製數字傳輸,信通容量和編碼,擴頻通信系統。本書通過使用MATLAB這一“動態實驗室”幫助讀者提高解決問題的能力和嚴謹思維的能力。
本書可作為通信專業本科生教材,也可作為相關專業工程技術人員的參考書。
目錄
1.1 Preview
1.2 Fourier Series
1.2.1 Periodic Signals and LTI Systems
1.3 Fourier Transforms
1.3.1 Sampling Theorem
1.3.2 Frequency-Domain Analysis of LTI Systems
1.4 Power and Energy
1.5 Lowpass Equivalent of Bandpass Signals
2 Random Processes
2.1 Preview
2.2 Generation of Random Variables
2.3 Gaussian and Gauss-Markov Processes
2.4 Power Spectrum of Random Processes and White Processes
2.5 Linear Filtering of Random Processes
2.6 Lowpass and Bandpass Processes
3 Analog Modulation
3.1 Preview
3.2 Amplitude Modulation(AM)
3.2.1 DSB-AM
3.2.2 Conventional AM
3.2.3 SSB-AM
3.3 Demodulation of AM Signals
3.3.1 DSB-AM Demodulation
3.3.2 SSB-AM Demodulation
3.3.3 Conventional AM Demodulation
3.4 Angle Modulation
4 Analog-to-Digital Conversion
4.1 Preview
4.2 Measure of Information
4.2.1 Noiseless Coding
4.3 Quantization
4.3.1 Scalar Quantization
4.4 Pulse-Code Modulation
4.4.1 Uniform PCM
4.4.2 Nonuniform PCM
5 Baseband Digital Transmission
5.1 Preview
5.2 Binary Signal Transmission
5.2.1 Optimum Receiver for the AWGN Channel
5.2.2 Monte Carlo Simulation of a Binary Communication System
5.2.3 Other Binary Signal Transmission Methods
5.2.4 Signal Constellation Diagrams for Binary Signals
5.3 Multiamplitude Signal Transmission
5.3.1 Signal Waveforms with Four Amplitude Levels
5.3.2 Optimum Receiver for the AWGN Channel
5.3.3 Signal Waveforms with Multiple Amplitude Levels
5.4 Multidimensional Signals
5.4.1 Multidimensional Orthogonal Signals
5.4.2 Biorthogonal Signals
6 Digital Transmission Through Bandlimited Channels
6.1 Preview
6.2 The Power Spectrum of a Digital PAM Signal
6.3 Characterization of Bandlimited Channels and Channel Distortion
6.4 Characterization of Intersymbol Interference
6.5 Communication System Design for Bandlimited Channels
6.5.1 Signal Design for Zero ISI
6.5.2 Signao Design for Controlled ISI
6.5.3 Precoding for Detection of Partial Response Signals
6.6 Linear Equalizers
6.6.1 Adaptive Linear Equalizers
6.7 Nonlinear Equalizers
7 Digital Transmission via Carrier Modulation
7.1 Preview
7.2 Carrier-Amplitude Modulation
7.2.1 Demodulation of PAM Signals
7.3 Carrier-Phase Modulation
7.3.1 Phase Demodulation and Detection
7.3.2 Differential Phase Modulation and Demodulation
7.4 Quadrature Amplitude Modulation
7.4.1 Demodulation and Detectino of QAM
7.4.2 Probability of Error for QAM in an AWGN Channel
7.5 Carrier-Frequency Modulation
7.5.1 Frequency-Shift Keying
7.5.2 Demodulation and Detection of FSK Signals
7.5.3 Probability of Error for Noncoherent Detection of FSK
7.6 Synchronization in Communication Systems
7.6.1 Carrier Synchronization
7.6.2 Clock Synchronization
8 Channel Capacity and Coding
8.1 Preview
8.2 Channel Model and Channel Capacity
8.2.1 Channel Model
8.2.2 Channel Capacity
8.3 Channel Coding
8.3.1 Linear Block Codes
8.3.2 Convolutional Codes
9 Spread Spectrum Communication Systems
9.1 Preview
9.2 Direct-Sequence Spread Spectrum Systems
9.2.1 Signal Demodulation
9.2.2 Probability of Error
9.2.3 Two Applications of DS Spread Spectrum Signals
9.3 Generation of PN Sequences
9.4 Frequency-Hopped Spread Spectrum
9.4.1 Probability of Error for FH Signals
9.4.2 Use of Signal Diversity to Overcome Partial-Band Interference
References
Index