研究生课程开设申请表
开课院(系、所):信息科学与工程学院
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 | 无线信道测量与建模 | ||||||||||
英文 | Wireless Channel Measurementsand Modeling | |||||||||||
待分配课程编号 | DB004220 | 课程适用学位级别 | 博士 | √ | 硕士 | √ | ||||||
总学时 | 16 | 课内学时 | 16 | 学分 | 1 | 实践环节 | 0 | 用机小时 | 0 | |||
课程类别 | □公共基础 □ 专业基础 □ 专业必修 √□ 专业选修 | |||||||||||
开课院(系) | 信息科学与工程 学院 | 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 课后作业和大作业 | |||||||||||
课程负责人 | 教师 姓名 | 王承祥 | 职称 | 教授 | ||||||||
网页地址 | https://ncrl.seu.edu.cn/chxwang/ | |||||||||||
授课语言 | 英语 | 课件地址 | ||||||||||
适用学科范围 | 公共 | 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 | 概率论与随机过程、通信原理、信号与系统、数字信号处理 | ||||||||||
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 | |||||||||||
主要参考书 | Principles of Mobile Communication | Gordon L. Stuber | Springer | 2017 | 第4版 | |||||||
Mobile Radio Channels | Matthias Paetzold | John Wiley & Sons | 2012 | 第2版 | ||||||||
Radio Propagation Measurement and Channel Modelling | Sana Salous | Wiley | 2013 | 第1版 | ||||||||
一、课程介绍(含教学目标、教学要求等)(300字以内)
《Wireless Channel Measurementsand Modeling》是信息与通信工程专业一门全英文授课的选修研讨课程,给学生全面系统地讲解无线信道测量、参数估计、统计特性分析、建模及模型性能评估的基本理论与方法,并将讨论标准化信道模型的演进。实用的无线信道模型对无线通信系统的设计、性能评估与优化是必不可少的,此课程对学生学习无线移动通信等相关课程起到重要的支撑作用。另外,在培养学生严谨认真的科学态度,提出问题、分析问题和解决问题的能力等方面起重要作用。采用讲授为主讨论为辅的教学方式,使学生通过本课程的学习,了解无线信道测量与建模的最新研究动态,了解并初步掌握其工作原理与设计方法。
二、教学大纲(含章节目录):(可附页)
1.1 模拟与数字无线信道
1.2 反射、衍射与散射
1.3 小尺度衰落与大尺度衰落
1.4 窄带与宽带信道
1.5 无线信道测量、参数估计、统计特性分析与建模
第2章: 无线信道测量、参数估计理论与方法
无线信道测量方法
无线信道参数估计方法
无线信道测量与参数估计实例
第3章: 窄带无线信道的统计特性
3.1 接收信号相关特性及频谱
3.2 接收信号幅度及相位分布
3.3 电平通过率与平均衰落持续时间
第4章: 宽带无线信道的统计特性
4.1 传输函数
4.2 相关函数与功率谱密度
第5章: 无线信道仿真方法与模型参数计算方法
5.1 窄带无线信道仿真
5.2 宽带无线信道仿真
5.3 信道模型参数计算方法
第6章: 无线MIMO信道模型
6.1 无线MIMO信道模型分类
6.2 几何随机信道模型
6.3 相关随机信道模型
6.4 波束域信道模型
第7章: 标准化无线信道模型
7.1 3G标准化无线信道模型
7.2 4G标准化无线信道模型
7.3 5G标准化无线信道模型
第8章: 5G 及B5G无线信道模型
8.1 通用5G无线信道模型
8.2 B5G 无线信道模型
三、教学周历
周次 | 教学内容 | 教学方式 |
1 | 第1章: 无线信道测量与建模基础 | 讲课/讨论 |
2 | 第2章: 无线信道测量、参数估计理论与方法 | 讲课/讨论 |
3 | 第3章: 窄带无线信道的统计特性 | 讲课/讨论 |
4 | 第4章: 宽带无线信道的统计特性 | 讲课/讨论 |
5 | 第5章: 无线信道仿真方法与模型参数计算方法 | 讲课/讨论 |
6 | 第6章: 无线MIMO信道模型 | 讲课/讨论 |
7 | 第7章: 标准化无线信道模型 | 讲课/讨论 |
8 | 第8章: 5G与B5G无线信道模型 | 讲课/讨论 |
9 | ||
10 | ||
11 | ||
12 |
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100至500字为宜。
四、主讲教师简介:
王承祥,男,博士, 移动通信国家重点实验室教授、博导、******、IEEE Fellow、IETFellow、IEEE通信协会2019-2020杰出讲师(IEEEComSoc Distinguished Lecturer)、2017和2018年科睿唯安“全球高被引科学家”。
目前主要研究方向为无线信道测量与建模、B5G通信网络架构和关键技术、人工智能与无线通信网络的融合等,他已出版专著3部,发表期刊和国际会议论文350多篇(其中IEEE核心期刊论文120多篇,ESI高被引论文23篇),有10篇国际会议论文获“最佳论文奖”。目前担任IEEE Transactions on Wireless Communications的执行编委会成员,担任过 16个国际期刊的编辑或客座编辑,包括 6个IEEE顶级期刊。王教授在17个国际会议上被邀请作大会主旨报告或特邀报告, 在7个国际会议上做Tutorials,担任过 30多个国际会议的总主席、技术程序委员会主席或分会主席等。主持或共同主持了20 多项英国工程与自然科学研究理事会、欧盟、中国科技部、国家自然科学基金委以及工业界资助的项目。
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 |
王承祥 | 通信与信息 系统 | chxwang@seu.edu.cn | 中国无线谷A1202 | 211111 | |||
王海明 | 电磁场与微 波技术 | hmwang@seu.edu.cn | 中国无线谷A3301 | 211111 | |||
孙晨 | 通信与信息 系统 | sunchen@seu.edu.cn | 中国无线谷A1314 | 211111 |
六、课程开设审批意见
所在院(系) 审批意见 | 负责人: 日期: |
所在学位评定分 委员会审批意见 | 分委员会主席: 日期: |
研究生院审批意见 | 负责人: 日期: |
备注 |
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。
研究生院 2003.12
Application Form For Opening Graduate Courses
School (Department/Institute):School of Information Science and Engineering
Course Type: New Open □√ Reopen □ Rename □(Please tick in □, the same below)
Course Name | Chinese | 无线信道测量与建模 | |||||||||||
English | Wireless Channel Measurements and Modeling | ||||||||||||
Course Number | DB004220 | Type of Degree | Ph. D | √ | Master | √ | |||||||
Total Credit Hours | 16 | In Class Credit Hours | 16 | Credit | 1 | Practice | 0 | Computer-using Hours | 0 | ||||
Course Type | □Public Fundamental □Major Fundamental □Major Compulsory √□Major Elective | ||||||||||||
School (Department) | School of Information Science and Engineering | Term | Spring | ||||||||||
Examination | A. □Paper(□Open-book □ Closed-book)B. □Oral C. □Paper-oral Combination D. √□ OthersTutorials and Coursework | ||||||||||||
Chief Lecturer | Name | Cheng-Xiang Wang | Professional Title | Professor | |||||||||
Website | https://ncrl.seu.edu.cn/chxwang/ | ||||||||||||
Teaching Language used in Course | English | Teaching Material Website | |||||||||||
Applicable Range of Discipline | Public | Name of First-Class Discipline | Information and Communication Engineering | ||||||||||
Number of Experiment | 0 | Preliminary Courses | Probability Theory and Stochastic Processes, Principles of Communications, Signals and Systems, Digital Signal Processing | ||||||||||
Teaching Books | Textbook Title | Author | Publisher | Year of Publication | Edition Number | ||||||||
Main Textbook | Own slides | ||||||||||||
Main Reference Books | Principles of Mobile Communication | Gordon L. Stuber | Springer | 2017 | 4th ED | ||||||||
Mobile Radio Channels | Matthias Paetzold | John Wiley & Sons | 2012 | 2nd ED | |||||||||
Radio Propagation Measurement and Channel Modelling | Sana Salous | Wiley | 2013 | 1st ED | |||||||||
Course Introduction (including teaching goals and requirements) within 300 words:
Wireless Channel Measurementsand Modelingis a majorelectivecoursefor Informationand Communication Engineeringtaughtin English. The coursegivesacomprehensive and systematic introductiononthe fundamental theoriesandmethodologiesofwirelesschannelmeasurements, parameterestimation, statisticalproperties, channelmodeling, andperformanceevaluationofchannelmodels. Furthermore, the evolution of standardizedchannelmodels will be discussed. Practicalwirelesschannelmodelsareindispensable for thedesign, performanceevaluation, and optimizationofmobilecommunicationsystems. Thecourseisastrongsupportforstudentswhentakingrelatedcourseslike Wireless Mobile Communications. In addition, itisimportantforstudentstodevelopthe rigorous attitude of scholarship and the abilitytopropose, analyze, and solveproblems, etc. The teaching method of this courseismainlybasedonlecturesandpartiallybasedondiscussions. The aim is to let students know the latest developments of wirelesschannelmeasurementsandmodeling, and befamiliarwiththeiroperatingprinciplesanddesignmethods.
Teaching Syllabus (including the content of chapters and sections. A sheet can be attached):
Chapter 1: Fundamentals of Wireless Channel Measurements and Modeling
1.1 Analog and Digital Wireless Channels
1.2 Reflection, Diffraction, and Scattering
1.3 Small Scale Fading and Large Scale Fading
1.4 Narrowband and Wideband Channels
1.5 Wireless Channel Measurements, Parameter Estimation, Statistical Property Analysis, and Modeling
Chapter 2: Theory and Methods for Wireless Channel Measurements and Parameter Estimation
Wireless Channel Measurement Methods
Wireless Channel Parameter Estimation Methods
Examples of Wireless Channel Measurements and Parameter Estimation
Chapter 3: Statistical Properties of Narrowband Wireless Channels
3.1 Received Signal Correlation and Spectrum
3.2 Received Envelope and Phase Distributions
3.3 Level Crossing Rate and Average Fade Duration
Chapter 4: Statistical Properties of Wideband Wireless Channels
4.1 Transmission Functions
4.2 Correlation Functions and Power Spectrum Densities
Chapter 5: Wireless Channel Simulation Methods and Model Parameter Computation Methods
5.1 Simulation of Narrowband Wireless Channels
5.2 Simulation of Wideband Wireless Channels
5.3 Channel Model Parameter Computation Methods
Chapter 6: Wireless MIMO Channel Models
6.1 Classification of Wireless MIMO Channel Models
6.2 Geometry-Based Stochastic Models (GBSMs)
6.3 Correlation-Based Stochastic Models (CBSMs)
6.4 Beam-Domain Channel Models (BDCMs)
Chapter 7: Standard Wireless Channel Models
7.1 3G Standard Wireless Channel Models
7.2 4G Standard Wireless Channel Models
7.3 5G Standard Wireless Channel Models
Chapter 8: 5G and B5G Wireless Channel Models
8.1 General 5G Wireless Channel Models
8.2 B5G Wireless Channel Models
Teaching Schedule:
Week | Course Content | Teaching Method |
1 | Chapter 1: Fundamentals of Wireless Channel Measurements and Modeling | Lectures/Discussions |
2 | Chapter 2: Theory and Methods for Wireless Channel Measurements and Parameter Estimation | Lectures/Discussions |
3 | Chapter 3: Statistical Properties of Narrowband Wireless Channels | Lectures/Discussions |
4 | Chapter 4: Statistical Properties of Wideband Wireless Channels | Lectures/Discussions |
5 | Chapter 5: Wireless Channel Simulation Methods and Model Parameter Computation Methods | Lectures/Discussions |
6 | Chapter 6: Wireless MIMO Channel Models | Lectures/Discussions |
7 | Chapter 7: Standard Wireless Channel Models | Lectures/Discussions |
8 | Chapter 8: 5G and B5G Wireless Channel Models | Lectures/Discussions |
9 | ||
10 | ||
11 | ||
12 |
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)
Brief Introduction of Chief lecturer:
Dr. Cheng-Xiang Wang, male, is a Professor and PhDsupervisor of National Mobile Communications Research Laboratory, School of Information Science and Engineering, Southeast University. He is a National Distinguished Expert, a Fellow of the IEEE and IET, an IEEE Communications Society Distinguished Lecturer for 2019 and 2020, and a Highly Cited Researcher recognized by Clarivate Analytics in 2017 and 2018.
His current research interests include wireless channel measurements/modeling, B5G wireless communication networks, and applying artificial intelligence to wireless communication networks.He has co-authored three books, more than 350 journal and conference papers, including over 120 papers published in various IEEE journals/magazines and 23 ESI Highly Cited Papers. He was a recipient of ten Best Paper Awards from various international conferences. He is currently an Executive Editorial Committee (EEC) Member for IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS. He has served as an Editor or Guest Editor for 16 international journals, including 6 IEEE TRANSACTIONS/Journals. He has also delivered 17 invited Keynote Speeches and Talks and 7 tutorials in international conferences. He has served as a technical program committee (TPC) member, the TPC chair, and the general chair for over 30 international conferences.He was the Principle Investigator (PI) or Co-PI of over 20 researchprojectsfundedby EPSRC, EU, MOST, NSFC, industries, etc.
Lecturer Information (include chief lecturer)
Lecturer | Discipline (major) | Office Phone Number | Home Phone Number | Mobile Phone Number | Address | Postcode | |
Cheng-Xiang Wang | Communication and Information Systems | chxwang@seu.edu.cn | CNV A1202 | 211111 | |||
HaimingWang | Electromagnetic Field and Microwave Techniques | hmwang@seu.edu.cn | CNV A3301 | 211111 | |||
Chen Sun | Communication and Information Systems | sunchen@seu.edu.cn | CNV A1314 | 211111 |
