DB004222-多载波通信OFDM理论与技术(原MS004213)

发布者:王源发布时间:2020-02-09浏览次数:1674

研究生课程开设申请表

 开课院(系、所):       金沙js800000

 课程申请开设类型: 新开     重开□     更名□请在内打勾,下同

课程

名称

中文

多载波通信 OFDM理论与技术

英文

Multicarrier Communications OFDM Theory and Technologies

待分配课程编号

DB004222

课程适用学位级别

博士


硕士

总学时

32

课内学时

32

学分

2

实践环节


用机小时


课程类别

公共基础     专业基础     专业必修     专业选修

开课院()

金沙js800000

开课学期

春季

考核方式

A.笔试(开卷   闭卷)      B. 口试    

C.笔试与口试结合                 D.其他   研究论文/报告                      

课程负责人

教师

姓名

吴炳洋

职称

副研究员

e-mail

wubingyang

@seu.edu.cn

网页地址


授课语言

双语教学

课件地址


适用学科范围

一级

所属一级学科名称

信息与通信工程

实验(案例)个数


先修课程

通信原理、数字信号处理、随机过程

教学用书

教材名称

教材编者

出版社

出版年月

版次

主要教材

(自编讲义)ngngyang@seu.edu.cnations OFDM theory and technologies

吴炳洋




主要参考书

Multicarrier Modulation with Low PAR

Jose Tellado

Kluwer Academic Publishers

2000

1

OFDM移动通信技术原理与应用

佟学俭, 罗涛

人民邮电出版社

2003

1

Digital Communications

John G. Proakis

电子工业出版社(影印)

20095

5



  1. 课程介绍(含教学目标、教学要求等)300字以内)


该课程是信息与通信工程学科研究生的专业课程。课程的内容包括多载波(OFDM)传输各个环节的理论,OFDM系统所涉及的调制/解调、编码/解码、前缀、信道估计、均衡、定时、同步、峰均比控制、载波间干扰抑制、自适应调制编码、分集、资源分配等方面的技术,以及实际的OFDM系统。本课程旨在使学生掌握多载波(OFDM)通信的基本理论和关键的技术,熟悉OFDM信号的特性、信号传输的整体进程及其中基本的功能模块,了解OFDM理论和技术方面的最新进展。在学完本课程后,学生能独立进行OFDM链路的整体设计和参数优化,迅速展开OFDM方面的研究开发工作。



二、教学大纲(含章节目录):(可附页)


  1. 多载波通信简介

    1. 通信发展简介(了解)

    2. 通信系统组成(了解)

    3. OFDM通信系统(了解)

    4. 多载波通信的优点(了解)

    5. 多载波通信的缺点(了解)

  2. 无线信道

    1. 信道的时域扩展(理解信道时域扩展的成因和物理意义)

    2. 信道的频域扩展(理解信道频域扩展的成因和物理意义)

    3. 信道模型(掌握Jakes信道模型,clark信道多普勒谱,信道模拟方法)

  3. 多载波调制

    1. FDMA(了解)

    2. WDM(了解)

    3. OFDM(掌握OFDM调制方法,理解OFDMFDMA的区别)

    4. 前缀(理解前缀的物理意义)

    5. 虚载波(了解)

  4. OFDM的峰均比

    1. 峰均比的定义(掌握)

    2. 峰均比的理论解(了解)

    3. 大峰均比对系统性能的影响(了解)

    4. 降低峰均比的方法(掌握限幅、选择影射和部分序列传输等基本方法)

    5. DFT-SOFDM(了解)

  5. 均衡与检测

    1. LS均衡(掌握)

    2. Delta均衡(了解)

    3. MMSE均衡(掌握)

    4. 前缀单载波频域均衡(了解)

    5. 多载波与单载波系统的抗干扰性能(了解)

  6. 信道估计

    1. LS信道估计(掌握)

    2. MMSE信道估计(掌握)

    3. 时变信道估计(掌握导频设置原和常用插值方法)

  7. 定时与同步

    1. 锁相环(了解)

    2. 数字定时与同步(掌握极大似然定时同步原理和方法)

  8. 载波间干扰

    1. 载波间干扰理论解(理解)

    2. 载波间干扰抑制(了解干扰抑制的常用方法)

      1. 预编码方法

      2. 均衡方法

  9. 编码OFDM系统

    1. 编码OFDM系统的构成(掌握)

    2. 分组码(了解编解码方法和性能)

    3. 卷积码(掌握编解码方法,了解性能)

    4. Turbo码(掌握编解码方法,了解性能)

  10. 自适应调制编码

    1. 多载波通信的容量(理解)

    2. 功率分配(了解功率分配的原则和常用方法)

    3. 自适应调制(了解)

    4. 自适应编码(了解)

  11. 多用户OFDM

    1. 多用户分集(理解)

    2. 多用户OFDM容量界(了解)

    3. 多用户OFDM的载波分配(了解)

    4. OFDMA(了解)

  12. MIMO OFDM

    1. MIMO OFDM系统的调制(掌握)

    2. MIMO OFDM信号检测(了解)

    3. MIMO OFDM信道估计(了解)

    4. 多用户MIMO OFDM(了解)

  13. OFDM链路设计和参数优化(掌握)

    1. OFDM系统链路构成框架

    2. OFDM链路设计流程

    3. OFDM参数优化

  14. OFDM3GPP-LTE中的应用(了解)

    1. 参数设置

    2. 性能分析

    3. 存在问题及对策

  15. OFDMWLANWiMAX中的应用(了解)

三、教学周历

 周次

 教学内容

 教学方式

1

多载波通信简介

 讲课

2

无线信道

 讲课

3

多载波调制

 讲课

4

OFDM的峰均比

 讲课

5

均衡与检测

 讲课

6

信道估计

 讲课

7

定时与同步

 讲课

8

载波间干扰

 讲课

9

编码OFDM系统

 讲课

10

自适应调制编码

 讲课

11

多用户OFDM

 讲课

12

MIMO OFDM

 讲课

13

OFDM链路设计和参数优化

 讲课

14

OFDM3GPP-LTE中的应用

 讲课

15

OFDMWLANWiMAX中的应用

 讲课

16

 总结与讨论

 讨论

17



18



 注:1.以上一、二、三项内容将作为中文教学大纲,在研究生院中文网页上公布,四、五内容将保存在研究生院。2.开课学期为:春季、秋季或春秋季。3.授课语言为:汉语、英语或双语教学。4.适用学科范围为:公共,一级,二级,三级。5.实践环节为:实验、调研、研究报告等。6.教学方式为:讲课、讨论、实验等。7.学位课程考试必须是笔试。8.课件地址指在网络上已经有的课程课件地址。9.主讲教师简介主要为基本信息(出生年月、性别、学历学位、专业职称等)、研究方向、教学与科研成果,以100500字为宜。

四、主讲教师简介:

吴炳洋,,19709月生,200410月毕业于金沙js800000无线电系,获通信与信息系统专业博士学位,200411-200610月在金沙js800000电子科学与技术博士后流动站工作,200611月年起在金沙js800000从事教学和研究工作,现为金沙js800000移动通信国家重点实验室副研究员(2006,11-),主要研究方向为多载波通信和多天线传输技术,对OFDM系统及相关的理论和技术,如峰均比问题,载波间干扰问题、信道估计和检测、定时和同步、信道编码、自适应调制编码、多用户OFDMMIMO OFDM3GPP-LTEWiMAX,都进行过深入研究。以第一作者发表过十多篇研究论文,拥有发明专利3项。2004-2007年为成教院本科生主讲《通信网》课程5届共240学时,2009年起为金沙js800000本科生讲授《计算机组织与结构》(英文教学)课程。

五、任课教师信息(包括主讲教师):

 任课

 教师

 学科

 (专业)

 办公

 电话

 住宅

 电话

 手机

 电子邮件

 通讯地址

 邮政

 编码

吴炳洋

通信与信息系统




wubingyang@seu.edu.cn

金沙js800000移动通信国家重点实验室

210096


六、课程开设审批意见

所在院(系)



负责人:

期:

所在学位评定分

委员会审批意见



分委员会主席:

期:

研究生院审批意见




负责人:

期:


说明:1.研究生课程重开、更名申请也采用此表。表格下载:http:/seugs.seu.edu.cn/down/1.asp

2.此表一式三份,交研究生院、院(系)和自留各一份,同时提交电子文档交研究生院。




Application Form For Opening Graduate Courses

School (Department/Institute)Information Science and Engineering

Course Type: New Open  Reopen □   Rename □Please tick in □, the same below

Course Name

Chinese

多载波通信 OFDM理论与技术

English

Multicarrier Communications OFDM Theory and Technologies

Course Number

DB004222

Type of Degree

Ph. D


Master

Total Credit Hours

32

In Class Credit Hours

32

Credit

2

Practice


Computer-using Hours


Course Type

Public Fundamental    □Major Fundamental    □Major CompulsoryMajor Elective

School (Department)

Information Science and Engineering

Term

Spring

Examination

A. □PaperOpen-book   □ Closed-bookB. □Oral   

C. □Paper-oral Combination                       D.OthersResearch Paper/Report

Chief

Lecturer

Name

Wu Bingyang

Professional Title

Associate Researcher

E-mail

wubingyang@seu.edu.cn

Website


Teaching Language used in Course

Chinese-English

Teaching Material Website


Applicable Range of Discipline

first-class discipline

Name of First-Class Discipline

Information and Communication Engineering

Number of Experiment


Preliminary Courses

Theory of Communications, Digital Signal Processing, Stochastic Process

Teaching Books

Textbook Title

Author

Publisher

Year of Publication

Edition Number

Main Textbook






Main Reference Books

Multicarrier Modulation with Low PAR

Jose Tellado

Kluwer Academic Publishers

2000

1

Theory and applications of OFDM mobile communications

Tong xue jian, luo tao

Post & Telecom Press

2003

1

Digital Communications

John G. Proakis

Publishing House of Electronics Industry

20095

5





  1. Course Introduction (including teaching goals and requirements) within 300 words:


This is a special course for graduate students of information and communications engineering. The contents of the course include the theory of Multicarrier (OFDM) transmission, OFDM related technologies, i.e. Modulation/Demodulation, Coding/Decoding, Prefix, Channel estimation, Equalization, Timing, Synchronization, PAPR control, Intercarrier interference depression, Adaptive modulation and coding, Diversity, and Resource allocation etc. and actual OFDM systems. The aim of the course is to help students to master the theory and key technologies of Multicarrier (OFDM) communications, to grasp the characteristics of OFDM signals, the total process of signal transmission, and the basic functional modules of the system, to keep up with the development of OFDM theory and technologies. After the course, students should can design an OFDM link, optimize its parameters, and start to perform research & development of OFDM quickly.


  1. Teaching Syllabus (including the content of chapters and sections. A sheet can be attached):


  1. Brief introduction of multicarrier (MC) communications

    1. Brief history of communications

    2. Communication systems

    3. OFDM Communication systems

    4. Advantages of multicarrier communications

    5. Disadvantages of multicarrier communications

  2. Wireless channel

    1. Time spreading of channels

    2. Frequency spreading of channels

    3. Channel models

  3. Multicarrier modulation

    1. FDMA

    2. WDM

    3. OFDM

    4. Prefix

    5. Virtual carriers

  4. PAPR of OFDM

    1. Definition of PAPR

    2. Theory solution of PAPR

    3. Effects of large PAPR to system performance

    4. PAPR reduction methodsClipping, SLM, PTS

    5. DFT-SOFDM

  5. Equalization and detection

    1. LS equalization

    2. Delta equalization

    3. MMSE equalization

    4. Frequency equalization of single carrier (SC) modulation with CP

    5. Interference resistant performance of MC and SC system

  6. Channel estimation

    1. LS estimation

    2. MMSE estimation

    3. Timing varying channel estimation(Pilots and interpolation)

  7. Timing and synchronization

    1. Phase lock ring

    2. Digital timing and synchronization

  8. Intercarrier interference (ICI)

    1. Theory solution of ICI

    2. Depression of ICI

      1. Precoding methods

      2. Equalization

  9. Coding OFDM systems

    1. Constitution of coding OFDM systems

    2. Block coding

    3. Convolutional coding

    4. Turbo coding

  10. Adaptive modulation and coding (AMC)

    1. Capacity of multicarrier communications

    2. Power allocatio

    3. Adaptive modulation

    4. Adaptive coding

  11. Multiuser OFDM

    1. Multiuser diversity

    2. Capacity bound of multiuser OFDM

    3. Carrier allocation of multiuser OFDM

    4. OFDMA

  12. MIMO OFDM

    1. Modulation of MIMO OFDM

    2. Signal detection of MIMO OFDM

    3. Channel estimation of MIMO OFDM

    4. Multiuser MIMO OFDM

  13. OFDM link design and parameter optimization

    1. Frame of OFDM link

    2. Flow process of OFDM link design

    3. OFDM parameter optimization

  14. Applications of OFDM in 3GPP-LTE

    1. Parameters

    2. Performance

    3. Problems and policies

  15. Applications of OFDM in WLAN and WiMAX











  1. Teaching Schedule:




Week

Course Content

Teaching Method

1

Brief introduction of multicarrier (MC) communications

Lecture

2

Wireless channel

Lecture

3

Multicarrier modulation

Lecture

4

PAPR of OFDM

Lecture

5

Equalization and detection

Lecture

6

Channel estimation

Lecture

7

Timing and synchronization

Lecture

8

Intercarrier interference (ICI)

Lecture

9

Coding OFDM systems

Lecture

10

Adaptive modulation and coding (AMC)

Lecture

11

Multiuser OFDM

Lecture

12

MIMO OFDM

Lecture

13

OFDM link design and parameter optimization

Lecture

14

Applications of OFDM in 3GPP-LTE

Lecture

15

Applications of OFDM in WLAN and WiMAX

Lecture

16

Conclusions and discussions

Seminar

17



18



Note: 1.Above one, two, and three items are used as teaching Syllabus in Chinese and announced on the Chinese website of Graduate School. The four and five items are preserved in Graduate School.


2. Course terms: Spring, Autumn , and Spring-Autumn term.  

3. The teaching languages for courses: Chinese, English or Chinese-English.

4. Applicable range of discipline: public, first-class discipline, second-class discipline, and third-class discipline.

5. Practice includes: experiment, investigation, research report, etc.

6. Teaching methods: lecture, seminar, practice, etc.

7. Examination for degree courses must be in paper.

8. Teaching material websites are those which have already been announced.

9. Brief introduction of chief lecturer should include: personal information (date of birth, gender, degree achieved, professional title), research direction, teaching and research achievements. (within 100-500 words)




  1. Brief Introduction of Chief lecturer:


Wu Bingyang, male, born in Sep. 1970, obtained Ph.D degree of communications and information systems in Radio Engineering Department of Southeast University in Oct. 2004, worked in Electronic Science and Technologies Postdoctoral from Nov. 2004 to Oct. 2006, and since Nov. 2006, have been an associate researcher of National Mobile Communication research Laboratory in Southeast University. His main research interests are multicarrier communications and multi-antenna transmission technologies, and especially in OFDM systems and related theories and technologies, e.g. PAPR problems, ICI problems, Channel estimation and Equalization, Timing and Synchronization, Channel coding, AMC, Multiuser OFDM, MIMO OFDM3GPP-LTEWiMAX etc. He published more than ten research papers as the first author, and have 3 patents. He lectured Communications Network for undergraduate students of Adult Education School of  Southeast University from 2004 to 2007, and in 2009 he lectured Computer organizations & structure in English for undergraduate students of Information Science and Engineering School of  Southeast University.


  1. Lecturer Information (include chief lecturer)


Lecturer

Discipline

(major)

Office

Phone Number

Home Phone Number

Mobile Phone Number

Email

Address

Postcode

Wu Bingyang

Communications and information systems




wubingyang@seu.edu.cn

National Mobile Communication research Laboratory, Southeast University

210096







12