Communication Systems: Analysis and Design

Harold P.E. Stern, Samy A. Mahmoud

買這商品的人也買了...

商品描述

 

For one/two-semester, senior/graduate-level First Communications courses in Communication Systems and Digital Communication in the department of electrical engineering for electrical engineering students.

Using three parallel approaches—rigorous mathematical, graphical, and intuitive—this text offers students a practical and deep understanding of communication systems. Emphasis on the theme of cost vs. performance tradeoffs throughout the book provides a framework and motivation for all the topics examined in it. Fundamentals of frequency domain analysis are reinforced through graphical techniques and communications-oriented examples.

Table of Contents:

    1. Introduction.

Components of a Communication System. An Overview of Tradeoffs in Communication System Design.

2. Frequency Domain Analysis.

Why? The Fourier Series. Representing Power in the Frequency Domain. The Fourier Transform. Normalized Energy Spectral Density. Properties of the Fourier Transform. Using the Unit Impulse Function to Represent Discrete Frequency Components as Densities.

3. Digital Baseband Modulation Techniques.

Goals in Communication System Design. Baseband Modulation Using Rectangular Pulses and Binary PAM. Pulse Shaping to Improve Spectral Efficiency. Building a Baseband Transmitter.

4. Baseband Receiver Design (and Stochastic Mathematics, Part I).

Calculating the Probability of Bit Error for a Simple PAM Receiver (Includes Discussion of Probability and Random Variables). Building the Optimal Receiver (The Matched Filter or Correlation Receiver). Synchronization. Equalization. Multi-Level (M-ary) Pulse Amplitude Modulation.

5. Digital Bandpass Modulation and Demodulation Techniques (and Stochastic Mathematics, Part II).

Binary Amplitude Shift Keying (Binary ASK). Other Binary Bandpass Modulation Techniques (Binary PSK and FSK). Coherent Demodulation of Bandpass Signals. Stochastic Mathematics - Part II (Random Processes). Noncoherent Receivers for ASK and FSK. Differential (Nncoherent) PSK. A Comparison of Binary Bandpass Systems. M-ary Bandpass Techniques.

6. Analog Bandpass Modulation and Demodulation Techniques.

Transmitting an Amplitude Modulated (AM) Signal. Coherent Demodulation of AM Signals. Noncoherent Demodulation of AM Signals. Single Sideband and Vestigial Sideband AM Systems. Frequency and Phase Modulation. Generating and Demodulating FM and PM Signals. A Comparison of Analog Modulation Techniques.

7. Multiplexing Techniques.

Time Division Multiplexing. Frequency Division Multiplexing. Code Division Multiplexing.

8. Analog-to-Digital and Digital-to-Analog Conversion.

Sampling and Quantizing. Differential Pulse Coded Modulation (DPCM). Delta Modulation (DM) and Continuously Variable Slope Delta Modulation (CVSD).

9. Basics of Information Theory, Data Compression, and Image Compression.

Information Content, Entropy, and Information Rate of Independent Sources. Variable Length Self-Punctuating Codes for Data Compression (Includes Huffman Coding). Sources with Dependent Messages (Includes LZW Encoding). Still Image Compression. Moving Image Compression.

10. Basics of Error Control Coding.

Channel Capacity. Algebra Field Theory and Modulo-2 Operators. Hamming Codes. A Geometric Interpretation of Error Control Coding. Cyclic Codes. Hybrid FEC/ARQ Codes. Correcting Burst Errors. Convolutional Codes and Viterbi Decoding.

References.

商品描述(中文翻譯)

這本書是為電機工程學系的高年級/研究生級別的通信系統和數位通信課程設計的,為期一到兩個學期。本書使用三種並行的方法——嚴謹的數學、圖形和直觀的方法,為學生提供實用且深入的通信系統理解。全書強調成本與性能之間的權衡,為書中所有主題提供了框架和動機。頻域分析的基礎知識通過圖形技巧和通信導向的例子加以強化。

目錄:
1. 簡介。
- 通信系統的組成部分。
- 通信系統設計中的權衡概述。
2. 頻域分析。
- 為什麼要進行頻域分析。
- 傅立葉級數。
- 在頻域中表示功率。
- 傅立葉變換。
- 正規化能量頻譜密度。
- 傅立葉變換的性質。
- 使用單位脈衝函數將離散頻率分量表示為密度。
3. 數位基頻調製技術。
- 通信系統設計的目標。
- 使用矩形脈衝和二進制脈衝振幅調製的基頻調製。
- 脈衝整形以提高頻譜效率。
- 構建基頻發射機。
4. 基頻接收機設計(以及隨機數學,第一部分)。
- 計算簡單PAM接收機的位錯誤概率(包括概率和隨機變量的討論)。
- 構建最佳接收機(匹配濾波器或相關接收機)。
- 同步。
- 均衡。
- 多級(M-ary)脈振幅調製。
5. 數位帶通調製和解調技術(以及隨機數學,第二部分)。
- 二進制振幅移位鍵控(二進制ASK)。
- 其他二進制帶通調製技術(二進制PSK和FSK)。
- 帶通信號的相干解調。
- 隨機數學 - 第二部分(隨機過程)。
- ASK和FSK的非相干接收機。
- 差分(非相干)PSK。
- 二進制帶通系統的比較。
- M-ary帶通技術。
6. 模擬帶通調製和解調技術。
- 傳輸幅度調製(AM)信號。
- AM信號的相干解調。
- AM信號的非相干解調。
- 單邊帶和殘留側帶AM系統。
- 頻率和相位調製。
- 生成和解調FM和PM信號。
- 模擬調製技術的比較。
7. 多路復用技術。
- 時分多路復用。
- 頻分多路復用。
- 碼分多路復用。
8. 模擬到數位和數位到模擬轉換。
- 取樣和量化。
- 差分脈衝編碼調製(DPCM)。
- 德爾塔調製(DM)和連續可變斜率德爾塔調製(CVSD)。
9. 信息理論、數據壓縮和圖像壓縮的基礎。
- 信息內容、熵和獨立源的信息速率。
- 用於數據壓縮的可變長度自我標點碼(包括霍夫曼編碼)。
- 具有相關消息的源(包括LZW編碼)。
- 靜態圖像壓縮。
- 動態圖像壓縮。
10. 錯誤控制編碼的基礎。
- 信道容量。
- 代數場理論和模2運算符。
- Hamming碼和線性區塊碼。
- 奇偶校驗碼和循環冗余檢查碼。
- BCH碼和RS碼。
- 卷積碼和Viterbi解碼。