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課程資訊

課程名稱

數位通信一
Digital Communications (Ⅰ)

開課學期

108-2

授課對象

電機資訊學院電信工程學研究所

授課教師

鐘嘉德

課號

CommE5021

課程識別碼

942 U0340

班次

學分

3.0

全/半年

半年

必/選修

選修

上課時間

星期一2,3,4(9:10~12:10)

上課地點

博理112

備註

總人數上限：60人

Ceiba 課程網頁

http://ceiba.ntu.edu.tw/1082CommE5021_

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課程概述

Digital communication techniques are important and fundamental in modern communication applications. These techniques include data modulation and demodulation, signal synchronization, source coding and decoding, channel coding and decoding, channel equalization and estimation. Familiarity with various communication techniques has become a must for communication engineers to delve into modern communication systems and circuits. In the course, we shall provide students with fundamentals and theoretical frameworks for the design and analysis of linear modulation systems, trellis-coded modulation system and spread-spectrum modulation system. The students majoring in communications are strongly recommended to take this course. The course consists of lectures organized in class notes.

課程目標

Below is the course content:
1. Introduction
2. Random Variables and Random Processes (reference 1)
3. Decision and Estimation Theories (reference 2, chap. 2)
4. Digital Modulation Techniques: Optimum Receiver Principles, Digital Modulation and Demodulation in AWGN, Useful Digital Modulation Systems, Power Spectral Density of Digital Modulations, Orthogonal Frequency-Division Multiplexing (reference 3, chap. 4; reference 4, chaps. 5 and 10; reference 5, chaps. 4 and 5; reference 6, chap. 2)
5. Trellis Coded Modulation Techniques (reference 7, chap. 3)
6. Spread Spectrum Modulation Techniques (references 8 & 9)

課程要求

1. Prerequisite: Probability and Statistics
2. There are two midterm exams and one final exam. Two Midterms: 30% Each; Final: 40%

預期每週課後學習時數

Office Hours

指定閱讀

None.

參考書目

1. A. Papoulis and S.U. Pillai, Probability, Random Variables, and Stochastic Processes, fourth edition, McGraw-Hill, 2002.
2. H. L. Van Trees, Detection, Estimation, and Modulation Theory, Part I, Wiley, 1968.
3. J. M. Wozencraft and I. M. Jacobs, Principles of Communication Engineering, 2nd edition, Wiley, 1967.
4. W. C. Lindsey and M. K. Simon, Telecommunication Systems Engineering, Prentice Hall, 1973 (Dover, 1991).
5. J. G. Proakis, Digital Communications, 4th edition, McGraw Hill, 2000.
6. M. K. Simon, S. M. Hinedi, and W. C. Lindsey, Digital Communication Techniques, Prentice Hall, 1995.
7. E. Biglieri, D. Divsalar, P. J. McLane, and M. K. Simon, Introduction to Trellis-Coded Modulation with Applications, MacMillan, 1991.
8. R. E. Ziemer and R. L. Peterson, Digital Communications and Spread Spectrum Systems. McMillan, 1985.
9. M. K. Simon, J. K. Omura, R. A. Scholtz, and B. K. Levitt, Spread Spectrum Communications, vols. 1-3. Computer Science Press, 1985.

評量方式
(僅供參考)

No.	項目	百分比	說明
1.	Second Midterm	30%	Second Midterm
2.	Final Exam	40%	Final Exam
3.	First Midterm	30%	First Midterm

課程進度

週次	日期	單元主題
第1週		Introduction
第3週		Random Variables and Random Processes
第4週		Decision and Estimation Theories
第5週		Decision and Estimation Theories
第6週		Digital Modulation Techniques: Optimum Receiver Principles
第8週		Digital Modulation Techniques: Optimum Receiver Principles
第9週		First Midterm (off-class), Digital Modulation Techniques: Digital Modulation and Demodulation in AWGN
第10週		Digital Modulation Techniques: Digital Modulation and Demodulation in AWGN
第11週		Digital Modulation Techniques: Useful Digital Modulation Systems
第12週		Digital Modulation Techniques: Useful Digital Modulation Systems
第13週		Digital Modulation Techniques: Power Spectral Density of Digital Modulations
第14週		Second Midterm (off-class), Digital Modulation Techniques: Orthogonal Frequency-Division Multiplexing
第15週		Digital Modulation Techniques: Orthogonal Frequency-Division Multiplexing
第16週		Trellis Coded Modulation Techniques
第17週		Trellis Coded Modulation Techniques; Spread Spectrum Modulation Techniques
第18週		Final Examination