當期課號 | 2540 | Course Number | 2540 |
---|---|---|---|
授課教師 | 程大川 | Instructor | Cheng,Da Chuan |
中文課名 | 數位通訊原理 | Course Name | Introduction to Digital Communications |
開課單位 | 資訊工程系(四日)四A | Department | |
修習別 | 選修 | Required/Elective | Elective |
學分數 | 3 | Credits | 3 |
課程目標 | 本課程主要講述數位通訊的基本原理。課程內容包括-數位通訊專有名詞及數位通訊的基本原理。學生在完成本課程後,將可了解以下之數位通訊基本原理:1. 帶通數位傳輸、2. 展頻調變、3. 多使用者輻射通訊、4. 消息理論、5. 改錯碼。 | Objectives | The goal of this course is to provide the students with a basic knowledge of digital communications. The main topics include terminology of digital communications and the concept of digital communication basics. The students will realize the following digital communication basics after finishing this course: 1. the functions and operation of passband digital transmission, 2. the spread-spectrum modulation, 3. the multiuser radio communications, 4. the fundamental limits in information theory, and 5. error-control coding. |
教材 | 數位通訊--譯者﹕郭文光 高立圖書 |
Teaching Materials | Pursley:Introduction to Digital Communications |
成績評量方式 | 期中考40% 平時成績20% 期末考40% |
Grading | Midterm exam 40% Presence and homework 20% Final exam 40% |
教師網頁 | - | ||
教學內容 | 1.機率與隨機變數 2.隨機程序簡介 3.隨機程序的線性過濾 4.在線性系統中隨機程序頻率域的分析 5.二元資料的基頻傳輸 |
Syllabus | 1.Probability and random variables 2. Introduction to random process 3. Linear filting of random processes 4. Frequency-domain analysis random processes in linear system 5. Baseband transmission of binary data .................... 1. Probability and random variables 2. Introduction to random process 3. Mean, autocorrelation, and autocovariance 4. white noises 5. discrete and continuous time linear system 6. Time domain analysis of second-order random processes in linear system 7.Gaussian random processes in linear system 8. The use of Fourier transform techniques 9.Midterm exam 10 . Frequency-domain analysis random processes in linear system 11. Spectrum of amplitude modulated signals 12 The spectral density of a wide-sense stationary random process 13 bandpass frequency functions 14 bandpass random processes 15 Signal sets for binary baseband transmission 16 analysis of linear receivers 17 optimization of the threshold 18 final exam |