EE 414

Course ID:

Course Code & Number

EE 414

Course Title

Wireless Communications

Level

BS

Credit Hours/ ECTS Credits

(3+0+0) 3 TEDU Credits, 5 ECTS Credits

Year of Study:

Senior

Semester:

Spring

Type of Course:

Elective

Mode of Delivery:

Face-to-face

Language of Instruction:

English

Pre-requisite / Co-requisite:

Catalog Description

Mobile radio wave propagation. Shadowing. Fading. Multipath. Interference. Diversity. Fundamentals of cellular communications. Frequency reuse. Handoff. Spread spectrum. Equalization. Modulation techniques. Multicarrier modulation. Orthogonal frequency-division multiplexing (OFDM). Multiple access schemes. Frequency-division multiple access (FDMA). Time-division multiple access (TDMA). Code-division multiple access (CDMA). Trunking theory. Coverage. Capacity. Next-generation wireless networks. Systems and standards. 5G and 6G networks.

Course Objectives

This course teaches basic principles and advanced techniques for designing wireless communication systems. Concepts such as noise, path loss, and fading are studied throughout the course. Digital modulations, diversity, equalization, multicarrier modulation, and multiuser and cellular systems are also covered to mitigate channel impairments and achieve high data rates.

Software Usage

MATLAB with Communications Toolbox (https://www.mathworks.com/products/communications.html)

Course Learning Outcomes

Upon successful completion of this course, students will be able to:
(1) Recall mobile radio wave propagation concepts including shadowing, fading, interference, diversity, and multipath,
(2) Express cellular communications principles, frequency reuse, and handoff mechanisms,
(3) Apply spread spectrum techniques, equalization methods, and modulation techniques including orthogonal frequency-division multiplexing,
(4) Analyze multiple access schemes, grasping their advantages and limitations,
(5) Evaluate network capacity and coverage utilizing trunking theory,
(6) Collaborate with peers to envision design, architecture, and deployment of current and next-generation wireless networks.

Learning Activities and Teaching Methods:

Telling/Explaining Discussion/Debate Questioning Reading Demonstrating Problem Solving Inquiry Collaborating Simulation & Games Brainstorming Web Searching

Assessment Methods and Criteria:

Test / Exam Quiz Performance Project (Written, Oral) Others

Assessment Methods and Criteria Others:

Active Learning Exercises

Design Content

Recommended Reading

Goldsmith, A. (2005). Wireless Communications. Cambridge University Press.

Required Reading

Rappaport, T. S. (2002). Wireless Communications: Principles and Practice, 2/E. Prentice Hall.

Grading

Test/Exam (65%), Performance Project (Written, Oral) (20%), Quiz (10%), Active Learning Exercises (5%)

Learning Activities and Teaching Methods Others:

Course Coordinator:

Javad Haghighat

Student Workload:

Workload	Hrs
Lectures	42
Course Readings	42
Exams/Quizzes	42
Report on a Topic	12
Active Learning Exercises	12

Course & Program Learning Outcome Matching: