Title: Advanced Transceivers for Next-Generation Communications

Date: July 2021

A. 教材及教学参考书：

教材：名称、作者、译者、出版社、出版时间

教学参考书：名称、作者、译者、出版社、出版时间

1. L. Hanzo, S. X. Ng, W. T. Webb and T. Keller, “Quadrature Amplitude Modulation: From Basics to Adaptive Trellis-Coded, Turbo-Equalised and Space-Time Coded OFDM, CDMA and MC-CDMA Systems, Second Edition“, New York, USA: John Wiley, IEEE Press, 2004.

2. A. Goldsmith, “Wireless Communications”, Cambridge University Press, 2005.

B. 教学目的和任务

Objectives:

1. To introduce the fundamental of advanced communications systems.

2. To provide a solid understanding in advanced transceiver techniques.

Tasks:

1. Formative assessment: tutorial, in class discussion, Matlab tutorial.

2. Summative assessment: 1 coursework and 1 written exam.

C. 教学内容、基本要求及学时分配

Topics:

Number of sessions (total 32)

Introduction

Background, motivation, research direction.

Day 1 (26/7): 1

Antenna and Wave Propagation

Dipole antenna, radiation pattern, wave propagation model.

D1: 2-3

Wireless Channels and Channel Capacity

Rayleigh and Rician fading, CCMC capacity.

D1: 4; D2(27/7): 5

Digital Modulation

Baseband model, PSK, QAM, DCMC.

D2: 6

Advanced Modulation schemes

Hierarchical Modulation (HM), Superposition M (SPM), Star-QAM.

D2: 7-8

Tutorial and Revision

D3(28/7): 9

Multiple Input Multiple Output (MIMO) system

Diversity, STBC, multiplexing, BLAST, beamforming, SVD.

D3: 10-11

Channel Coding

Convolutional codes, turbo codes.

D3: 12;

D4(29/7): 13

Cooperative Communications

DAF, AAF, successive relaying, two-way relaying.

D4: 14

10.

Advanced Cooperative Communications

HM-SPM assisted cooperative communications

D4: 15

11.

Tutorial and Revision

D4: 16

12.

Matlab sessions

Basics, tips and exercises. Lectures and Lab 1.

D5(30/7): 17-20

13.

Matlab sessions

Basics, tips and exercises. Lab 2.

D6(1/8): 21-24

14.

Coursework guidance

Monday (2/8)

D7(2/8): 25-26

15.

Coursework guidance

Tuesday (3/8) (deadline on Friday 6/8)

D8(3/8): 27-28

16.

Exam

Monday (9/8)

D9(9/8): 29-30

17.

Coursework feedback

Tuesday (10/8)

D10(10/8): 31-32

D. 实践教学内容和基本要求

Some Matlab or C++ simulations will be demonstrated during the lessons. Students will be given some basic codes for the coursework.

E. 课程计划纲要

1. 16课时：周一(26/7) 至周四(29/7)：每天4个课时：中国时间下午四点至五点五十分；晚上七点半点至九点二十分。([9am-11am]4:00pm-5:50pm, [12:30pm-2:30]7:30pm-9:20pm）

2. 4课时：周五(30/7): Matlab sessions: ([9am-11am]4:00pm-5:50pm, [12:30pm-2:30]7:30pm-9:20pm)

3. 4课时：周日(1/8): Matlab sessions: ([9am-11am]4:00pm-5:50pm, [12:30pm-2:30]7:30pm-9:20pm)

4. 2课时：周一(2/8): 作业补导: ([9am-11am]4:00pm-5:50pm)

5. 2课时：周二(3/8): 作业补导: ([9am-11am]4:00pm-5:50pm)

6. 2课时：周一(9/8): 考试: ([9am-11am]4:00pm-6:00pm)

7. 2课时：周二(10/8): 作业反馈: ([9am-11am]4:00pm-5:50pm)

Monday	Tuesday	Wednesday	Thursday	Friday	Sunday
26/7/2021 4:00pm-5:50pm 7:30pm-9:20pm Lectures	27/7/2021 4:00pm-5:50pm 7:30pm-9:20pm Lectures	28/7/2021 4:00pm-5:50pm 7:30pm-9:20pm Lectures	29/7/2021 4:00pm-5:50pm 7:30pm-9:20pm Lectures	30/7/2021 4:00pm-5:50pm 7:30pm-9:20pm Matlab	1/8/2021 4:00pm-5:50pm 7:30pm-9:20pm Matlab
2/8/2021 4:00pm-5:50pm Coursework	3/8/2021 4:00pm-5:50pm Coursework			6/8/2021 6pm CW Deadline
9/8/2021 4:00pm-6:00pm Exam	10/8/2021 4:00pm-5:50pm Feedback

Notes and MATLAB codes

· Lecture notes: notes.pdf

· Matlab notes: slides.pdf

· Matlab Lab 1: lab1.pdf

· Matlab Lab 2: lab2.pdf

· Coursework: coursework.pdf

· Coursework support: cw_support.pdf

· Antenna pattern: pattern.m

· SISO channel capacity: ccmc_siso.m

· AWGN simulator: simulator_awgn.m