Title: Advanced Transceivers for Next-Generation
Communications
Date: August 2023
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
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Topics: |
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1. |
Introduction Background, motivation, research direction. |
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2. |
Antenna and Wave Propagation Dipole antenna,
radiation pattern, wave propagation model. |
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3. |
Wireless Channels and Channel Capacity Rayleigh and
Rician fading, CCMC capacity. |
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4. |
Digital Modulation Baseband
model, PSK, QAM, DCMC. |
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5. |
Advanced Modulation schemes Hierarchical
Modulation (HM), Superposition M (SPM), Star-QAM. |
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6. |
Tutorial and Revision |
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7. |
Multiple Input Multiple Output (MIMO) system Diversity,
STBC, multiplexing, BLAST, beamforming, SVD. |
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8. |
Channel Coding Convolutional
codes, turbo codes. |
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9. |
Cooperative Communications DAF, AAF,
successive relaying, two-way relaying. |
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10. |
Advanced Cooperative Communications HM-SPM assisted
cooperative communications |
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11. |
Tutorial and Revision |
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12. |
Matlab sessions Basics, tips and exercises. Lectures and Lab 1. |
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13. |
Matlab sessions Basics, tips and exercises. Lab 2. |
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14. |
Coursework guidance |
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15. |
Exam |
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16. |
Coursework feedback |
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
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Monday |
Tuesday |
Wed |
Thursday |
Friday |
Saturday |
Sunday |
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14/8 |
15/8 |
16/8 16:00-17:50 19:30-21:20 Lectures |
17/8 16:00-17:50 19:30-21:20 Lectures |
18/8 11:00-12:50 Matlab
16:00-17:50 19:30-21:20 Lectures |
19/8 11:00-12:50 Matlab
16:00-17:50 19:30-21:20 Lectures |
20/8 11:00-1320 [40x4=160min] Matlab 16:00-18:40 [40x4=160min] Coursework |
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25/8 Depart 11am |
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27/8 18:00 CW Deadline |
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30/8 16:00-17:50 Exam |
31/8 16:00-17:50 Feedback |
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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