EE354 Communication Systems

Understand the fundamentals of different modulation schemes and their performance in the presence/absence of noise. Textbooks. REQUIRED: Modern Digita...

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EE354 Communication Systems Lecture Schedule

See Time Table

Semester

Six EE 237: Signals and Systems EE 240: Stochastic Processes

Credit Hours

Three

Pre-requisite

Instructor

M. Tahir and Sahar Idrees

Contact

Office

Ground Floor Electrical Eng. Dept. UET

Office Hours

Monday 9:30am- 11:30pm

Teaching Assistant

None

Lab Schedule

See class timetable

Office

N/A

Office Hours

N/A

Course Description

The course will be an introduction to communication systems, primarily answering the question of how to transfer information from one point to another point. After a brief review of Fourier analysis and random processes, three fundamental modulation techniques namely amplitude/phase/frequency modulation, will be covered. Then we will cover baseband and passband digital data transmission techniques.

Expected Outcomes

Upon completion of this course, students will: • Understand the fundamentals of different modulation schemes and their performance in the presence/absence of noise.

Textbooks

Grading Policy

[email protected]

[email protected]

REQUIRED: Modern Digital and Analog Communication Systems by B. P. Lathi and Zhi Ding, 4th Edition, Oxford University Press, 2009. OPTIONAL: Fundamentals of Communication Systems by John G. Proakis and Masoud Salehi, Pearson Education 2005. • • • •

Class Participation: Quizzes & Assignments: Midterm: Final:

10% 20% 30% 40%

Lecture Plan Weeks

Topics

Readings

1*

Signals and Signal Space

Chapter 2

2*

Analysis and Transmission of Signals

Chapter 3

3*

Amplitude Modulation and Demodulation DSB-SC, DSB-WC, SSB modulation/demodulation schemes. Performance of amplitude modulation in the presence of noise.

3*

Angle Modulation and Demodulation Frequency modulation, Phase modulation Performance of angle modulation in the presence of noise

Chapter 4 + Chapter 10

Chapter 5 + Chapter 10

MIDTERM 2*

Sampling and Analog to Digital Conversion

Chapter 6

Sampling theorem, quantization noise, pulse code modulation, delta modulation. 3*

Principles of Baseband Digital Data Transmission

Chapter 7

Line coding, pulse shaping, Scrambling, Regenerative Repeater, Detection-Error Probability, M-ary Communication, Eye diagram 2

Introduction to Information Theory Measure of information, source coding, error free communication over noisy channel, channel capacity

Chapter 14