EE 516

Course ID:

Course Code & Number

EE 516

Course Title

Free-Space Optical Communication Systems

Level

MS

Credit Hours/ ECTS Credits

(3+0+0) 3 TEDU Credits, 7.5 ECTS Credits

Year of Study:

Master

Semester:

Spring

Type of Course:

Elective

Mode of Delivery:

Face-to-face

Language of Instruction:

English

Pre-requisite / Co-requisite::

Catalog Description

Introduction to free-space optical communication principles. In-depth exposition on propagation effects in free-space, outdoor, and deep space. Channel impairments in turbulent media including atmospheric turbulence effects and scattering effects. Noise sources. Modulation and multiplexing techniques for free-space applications. Channel compensation techniques, diversity techniques, multiple-input and multiple-output (MIMO) techniques, and adaptive optics techniques to deal with atmospheric turbulence effects.

Course Objectives

This course aims to introduce the principles of free-space optical communication, covering propagation effects, channel impairments in turbulent media, noise sources, modulation, and multiplexing techniques. The course also covers compensation methods such as diversity, multiple-input and multiple-output (MIMO), and adaptive optics to handle atmospheric turbulence effects.

Software Usage

MATLAB

Course Learning Outcomes

Upon successful completion of this course, students will be able to:
(1) Describe the concepts of signal propagation in free-space, outdoor, and deep-space environments,
(2) Explain propagation effects to assess their impact on signal transmission quality,
(3) Apply modulation and multiplexing techniques customized for optimizing the performance of free-space optical communication,
(4) Analyze noise sources affecting optical communication systems and categorize approaches for noise reduction,
(5) Evaluate the effectiveness of compensation techniques, such as diversity, MIMO, and adaptive optics, in managing atmospheric turbulence effects,
(6) Devise spatial diversity, MIMO, and adaptive optics techniques for turbulence management to enhance communication performance.

Learning Activities and Teaching Methods:

Telling/Explaining Discussion/Debate Questioning Reading Demonstrating Problem Solving Inquiry Collaborating Case Study/Scenarion Analysis Brainstorming Web Searching Experiments

Assessment Methods and Criteria:

Test / Exam Case Studies / Homework

Assessment Methods and Criteria Others:

Design Content

Recommended Reading

Required Reading

(1) Majumdar, A. K. (2015). Advanced Free Space Optics (FSO): A System Approach. New York, Springer.
(2) Ghassemlooy Z., Popoola W., & Rajbhandari S. (2013). Optical Wireless Communications: System and Channel Modelling with MATLAB®. Boca Raton, Florida, USA: CRC Press.

Grading

Test/Exam (60%), Case Studies / Homework (40%)

Learning Activities and Teaching Methods Others:

Course Coordinator:

Muhsin Caner Gökçe

Student Workload:

Workload	Hrs
Lectures	42
Course Readings	70
Exams/Quizzes	70
Case Study Analysis	43

Course & Program Learning Outcome Matching: