通信原理

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开始学习

本课程是信息科学与工程学院专业基础课,2006年,“通信原理”课程获得东南大学精品课程和江苏省二类精品课程;2008年获“通信原理”江苏省精品课程。

本课程视频与教材相结合,共分6章,主要讲授数字与模拟通信系统的基本理论、主要技术与分析方法。内容包括背景与预览、随机过程、连续波调制、脉冲调制、基带脉冲传输、信号空间分析及带通数据传输等。

视频总计64段,每章第一段视频为引言,引入本章的问题,以及解决问题的方法与结果,引导后续内容的详细展开。课程的讲解注重启发,力求简单易懂,初学者能够融会贯通。

课程教材为英文原版教材,学习方法建议:

1) 先看视频,再读课件、教材,帮助理解;

2) 再读教材课件,看视频,深化思考;

预备知识

信号与系统、随机信号分析与处理(或概率论与随机过程)

参考资料

教材:

Simon Haykin著. 《Communication Systems(Fourth Edition)》.电子工业出版社,2018年8月

参考资料:

曹志刚、宋铁成等编著,《通信原理与应用:基础理论部分》,北京:高等教育出版社,2015.08.

樊昌信,曹丽娜编著,《通信原理》(第7版),北京:国防工业出版社,2012.11.

马东堂,赵海涛,张晓瀛等编著,《通信原理》,北京:高等教育出版社,2018.03.

John G. Proakis(美)等著;李锵等译,《通信系统原理》,北京:电子工业出版社200

Chapter 0 Back ground and preview
0-0 Introduction song
0-1 The Communication Process song
0-2 Sources of Information
0-3 Channel
0-4 Analog and Digital Type of Communication song
0-5 Shannon's Information Capacity Theorem song
Chapter 1 Random process
1-1 Mathematical Definition of a Random Process
1-2 Strictly Stationary Process
1-3-1 Mean, Correlation, and Covariance Function
1-3-2 Properties of the Autocorrelation Function
1-3-3 Multiple Random Processes
1-4 Ergodic Process
1-5 Transmission of a Random Process Through a Lin
1-6-1 Definition of Power Spectral Density
1-6-2 Power Spectral Density of output random proc
1-7 Gaussian Process
1-8 Noise
1-9-1 Narrowband Noise
1-9-2 Representation of Narrowband Noise in terms
Chapter 2 Continuous-wave modulation
2-1 Introduction
2-2 Amplitude Modulation
2-3-1 Linear Modulation-DSB
2-3-2 Linear Modulation-SSB
2-3-3 Linear Modulation-VSB
2-4 Frequency-Division Multiplexing
2-5 Angle Modulation
2-6-1 Narrowband FM
2-6-2 Wideband FM
2-6-3 Bandwidth of WBFM
2-6-4 Generation of FM signals
2-7 Noise in CW Modulation System
2-8 Noise in AM Receiver using Envelop Detection
2-9 Noise in FM Receiver
2-10 FM Threshold Effect
Chapter 3 Pulse Modulation
3-1 Introduction
3-2 Sampling
3-3 Pulse-Amplitude Modulation
3-4-1 Quantization
3-4-2 Quantization Noise
3-5-1 Pulse-Code Modulation -1
3-5-1 Pulse-Code Modulation -2
3-6 TDM
3-7 Delta Modulation
3-8 Linear Prediction
3-9 Differential Pulse-Code Modulation
Chapter 4 Baseband Pulse Transmission
4-0 introduction
4-1 Matched Filter.
4-2 Error Rate Due to Noise
4-3 Intersymbol Interference
4-4 Nyquist’s Criterion for Distortionless Baseban
4-5 Raised Cosine Spectrum
4-6 Correlative-Level Coding
4-7 modified duobinary signaling
4-8 Baseband M-ary PAM Transmission
4-9 Optimum Linear Receiver
Chapter 5 Signal-space Analysis
5-1 Introduction
5-2 Geometric Representation of Signals
5-3 Vector Channel
5-4 Maximum Likelihood Decoding
5-5 Correlation Receiver
5-6 Probability of Error
Chapter 6 Passband Modulation
6-1 Introduction
6-2 Coherent PSK
6-3 QAM
6-4 FSK
6-5 MSK
6-6 Differential DPSK
6-7 Comparison of Digital Modulation Schemes