EE583A 2016F Lecture 8 Equalization - Lecture.pdf, Lecture notes of Engineering

EE583A_2016F Lecture 8 Equalization - Lecture.pdf

Typology: Lecture notes

2017/2018

Uploaded on 01/21/2018

iknoahguy
iknoahguy šŸ‡ŗšŸ‡ø

13 documents

1 / 89

Toggle sidebar

This page cannot be seen from the preview

Don't miss anything!

bg1
EE583A Wireless Communications
Lecture 8
Equalization
October 31, 2016
General Information
Lecture: Monday, 6:15-8:45 P.M.
Location: Lieb Building 218
Instructor: Jack H .Winters
Office: Burchard 413
All material on Canvas 1
pf3
pf4
pf5
pf8
pf9
pfa
pfd
pfe
pff
pf12
pf13
pf14
pf15
pf16
pf17
pf18
pf19
pf1a
pf1b
pf1c
pf1d
pf1e
pf1f
pf20
pf21
pf22
pf23
pf24
pf25
pf26
pf27
pf28
pf29
pf2a
pf2b
pf2c
pf2d
pf2e
pf2f
pf30
pf31
pf32
pf33
pf34
pf35
pf36
pf37
pf38
pf39
pf3a
pf3b
pf3c
pf3d
pf3e
pf3f
pf40
pf41
pf42
pf43
pf44
pf45
pf46
pf47
pf48
pf49
pf4a
pf4b
pf4c
pf4d
pf4e
pf4f
pf50
pf51
pf52
pf53
pf54
pf55
pf56
pf57
pf58
pf59

Partial preview of the text

Download EE583A 2016F Lecture 8 Equalization - Lecture.pdf and more Lecture notes Engineering in PDF only on Docsity!

EE583A Wireless Communications

Lecture 8 Equalization October 31, 2016

General Information

Lecture: Monday, 6:15-8:45 P.M.

Location: Lieb Building 218

Instructor: Jack H .Winters

E-mail: [email protected]

Office: Burchard 413

All material on Canvas

1

  • Textbook: Andreas F. Molisch, Wireless Communications , Second Edition Wiley-IEEE Press, 2011. ISBN: 978-047074186-3.
  • Prerequisites:
    • Probability and Statistical Analysis
    • Signal and Systems
    • Knowledge of Linear Algebra
    • Knowledge of Matlab

General Information

  • Assignments (20%)
    • Homework will be assigned almost weekly.
    • Due following Monday before class.
  • Quizzes (10%)
    • Two 20 minutes in-class quizzes..
  • Exams (70%)
    • Midterm (open book, 30%)
    • Final (open book, 40%)
    • Exams must be taken at scheduled time, no makeup exams

General Information

  • Grading

General Information

Course Syllabus

  • Introduction (Lecture 1)
    • Wireless history and future, service types, requirements, challenges
  • Wireless propagation channels (Lecture 2-4)
    • Propagation, path loss, shadowing, and small-scale fading, large-scale fading, channel models
  • Transceivers and signal processing (Lecture 5-9)
    • Modulation/demodulation, diversity, channel coding, speech coding, equalizers
  • Multiple Access and Advanced Topics (Lecture 10-13)
    • Multiple access, the cellular principle, spread spectrum systems, OFDM, multi-antenna systems.

7

Midterm

Midterm

Midterm

Midterm

Midterm

Midterm

Midterm

Midterm

Midterm