ECSE 6961: Fundamentals of Wireless Broadband Networks. Spring 2007
Course Web Page: Index of Topics:
Lectures for ECSE-6600: Internet Protocols,
Spring 2007
Acknowledgement: Slides have been based in-part upon
original slides/notes of a number of people, including:
Profs. Tse/Viswanath (Berkeley/UIUC), Andrea Goldsmith (Stanford), Jeff Andrews (U Texas),
T. Rappaport (U Texas), Siavesh Alamouti (Intel)
- WebCT HELP Page
- Syllabus
In
PDF |
In
MS Word
- Schedule/Calendar
In
PDF |
In MS Word
- Slide Set 1 (Wireless Broadband: Introduction):
{In PDF |
In Powerpoint
- Lecture 1 (Slide Set 1) VIDEO Part1 , Part2 , Part3
- Lecture 2 (Slide Set 1) VIDEO Part1 , Part2 , Part3
- Lecture 3 (Slide Set 1) VIDEO Part1 , Part2
- Slide Set 2 (Linear Algebra: Gentle Introduction):
{In PDF |
In Powerpoint}
- Lecture 3 (Slide Set 2) VIDEO
Part1 ,
Part2 ,
Part3
- Lecture 4 (Slide Set 2) VIDEO Part1 , Part2 , Part3
- Introduction to Antennas and Propagation: Invited Lecture, Prof. Ken Connor:
{In PDF |
In Powerpoint}
- Lecture 5 Intro to Antennas (Prof. Connor) VIDEO Part1 , Part2 , Part3
- Slide Set 3 (Probability/Stochastic Processes: Gentle Introduction):
{In PDF |
In Powerpoint}
- Lecture 6 (Slide Set 3) VIDEO Part1 , Part2 , Part3
- Lecture 7 (Slide Set 3) VIDEO Part1 , Part2 , Part3
- Slide Set 4 (The Wireless Channel):
{In PDF |
In Powerpoint}
- Lecture 8 (Slide Set 4) VIDEO Part1 , Part2 , Part3
- Lecture 9 (Slide Set 4) VIDEO Part1 , Part2 , Part3
- Lecture 10 (Slide Set 4) VIDEO Part1 , Part2
- Slide Set 5 (Point-to-Point Wireless Communication (I):Digital Basics, Modulation, Detection, Pulse Shaping): :
{In PDF |
In Powerpoint}
- Lecture 10 (Slide Set 5): Basics, Modulation: VIDEO Part3
- Lecture 11 (Slide Set 5) Modulation, Pulse Shaping: VIDEO Part1 , Part2 , Part3
- Slide Set 6 (Point-to-Point Wireless Communication (II): ISI, Equalization, Diversity, MIMO/CDMA/OFDM ): :
{In PDF |
In Powerpoint}
- Lecture 12 (Slide Set 6): Time Diversity. VIDEO Part1 , Part2 , Part3
- Lecture 13 (Slide Set 6): Spatial Diversity & MIMO. VIDEO Part1 , Part2 , Part3
- Lecture 14 (Slide Set 6): Frequency Diversity, MLSE, CDMA. VIDEO Part1 , Part2 , Part3
- Lecture 15 (Slide Set 6): OFDM. VIDEO Part1 , Part2 , Part3
- Slide Set 7 (Point-to-Point Wireless Communication (III): Coding, Adaptive Modulation, Hybrid ARQ: :
{In PDF |
In Powerpoint}
- Lecture 16 (Slide Set 7): Coding Introduction, Hamming codes. VIDEO Part1 , Part2
- Slide Set 8 (Capacity of Wireless Channels): Invited Lecture, Prof. Alhussein Abouzeid :
{In PDF |
In Powerpoint}
- Lecture 17 (Slide set 8: Channel capacity): Prof. Alhussein Abouzeid: VIDEO Part1 , Part2 , Part3
- Lecture 18 (Slide set 7: Linear Block/Cyclic Codes): VIDEO Part1 , Part2 , Part3
- Lecture 19 (Slide set 7: Convolutional and Concatenated Coding): VIDEO Part1 , Part2 , Part3
- Lecture 20: (Slide set 7: LDPC & Turbo Codes, Fountain Erasure Codes): VIDEO Part1 , Part2
- Slide Set 9 (Medium Access Control in Wireless Networks): Invited Lecture, Prof. Biplab Sikdar :
{In Powerpoint}
{In PDF}
- Lecture 21: (Slide set 9): Invited Lecture Prof. Biplab Sikdar (MAC in Wireless Networks), VIDEO Part1 , Part2 , Part3
- Slide Set 10 (RFIC Design for Wireless: Cognitive Radio, UWB, OFDM-MIMO, 60GHz, 3d-integration): Invited Lecture, Prof. Mona Hella :
{In Powerpoint} |
{In PDF} |
- Lecture 22: Invited Lecture, Prof. Mona Hella (RFIC Design for Wireless: Cognitive Radio, UWB, OFDM-MIMO etc) VIDEO Part1 , Part2 , Part3
- Slide Set 11 (Capacity of Multi-User Wireless Channels) :
{In PDF |
In Powerpoint}
- Lecture 23: (Slide set 11): (Capacity of Multi-User Wireless Channels), VIDEO Part1 , Part2 , Part3
- Wireless Scheduling Algorithms (Jing Ai: invited student short-talk):
In PDF |
- Lecture 24: VIDEO Part1
- Cooperative Diversity, Virtual MIMO, Cooperative FEC: Hsin-Yi Shen, invited student short-talk:
{In PDF |
In Powerpoint}
- Lecture 24: VIDEO Part2
- OFDM Channel Modeling in ns-2 for WiMAX: David Doria, invited student short-talk:
{In PDF |
In Powerpoint}
- Lecture 24: VIDEO Part3
Case Study
- Case Study: Guidelines/Suggested Topics:
In HTML |
Homeworks
Exams and Solutions
Exam I
{In PDF |
In Powerpoint}
Solutions:
{In PDF |
In Powerpoint } |
{In PDF (Late Exam) |
In Powerpoint (Late Exam)} |
Exam II
{In PDF |
In Powerpoint}
Solutions:
{In PDF |
In Powerpoint } |
Books/Suggested Extra Readings/References/Notes
Books & Papers
- David Tse, Pramod Viswanath:
Fundamentals of Wireless Communication, 1st Edition, Cambridge Univ. Press, June 2005, ISBN # 0-521-84527-0 |
Book Web Page
- Andrea Goldsmith:
Wireless Communications, Cambridge Univ. Press, 2005, ISBN #: 0-521-83716-2 |
Book Web Page
- Jeffrey G. Andrews, Arunabha Ghosh, Rias Muhamed:
Fundamentals of WiMAX: Understanding Broadband Wireless Networking , Prentice-Hall, 2007.
- David MacKay:
Information Theory, Inference & Learning Algorithms , Cambridge Univ. Press, 2002.
Book Web Page
- Berlekamp, Peile, Pope:
The Application of
Error Control to Communications
Suggested Resources:
- Prof. Gilbert Strang (MIT), Linear Algebra Video Course .
In particular, the following lectures are quite relevant to our course:
on "Independence, Basis, and Dimension", "Orthogonal Vectors and
Subspaces", "Projections onto Subspaces", "Projection Matrices and
Least Squares", "Projection Matrices and Least Squares", "Orthogonal
Matrices and Gram-Schmidt", "Eigenvalues and Eigenvectors",
"Diagonalization and Powers of A", "Markov Matrices; Fourier Series",
"Symmetric Matrices and Positive Definiteness", "Complex Matrices;
Fast Fourier Transform", "Positive Definite Matrices and Minima",
"Singular Value Decomposition", "Linear Transformations and Their
Matrices", "Change of Basis; Image Compression", and "Left and Right
Inverses; Pseudoinverse".
- Prof. David Forney, MIT, Digital Communication (Coding) Course .
- Jeff Andrews,
CDMA Resources Page .
Back to
Shivkumar Kalyanaraman's
home page