Electrical Engineering (MSc)

Program Overview

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The Electrical Engineering MSc program enhances students' knowledge in core areas, introduces them to current trends and technologies, and equips them to conduct research within the field. It offers specializations in Signal Processing and Communications, Electromagnetics, Antennas and Microwave Engineering, Renewable Energy Sources and Power Systems, and VLSI and Embedded Systems. Graduates are prepared for careers in various industries, including telecommunications, electronics, power systems, and renewable energy.

Program Outline

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Electrical Engineering (MSc, 1.5 Years or 3 Semesters)

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Degree Overview

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Program Description:

The Master's degree in Electrical Engineering enhances students' knowledge in core areas beyond the undergraduate level, introducing them to current and emerging trends and technologies. It equips students to conduct research within the field while strengthening their application of methods and techniques to tackle challenging technological problems.

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Objectives:

• Prepare students for success in a demanding, highly competitive technological landscape.
• Cultivate an academic environment conducive to learning new technologies and engineering concepts.
• Introduce students to research on advanced engineering topics.
• Develop analytical skills and critical thinking.
• Provide specialization and extensive knowledge in specific areas of concentration.
• Promote engineering ethics and moral practices.

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Specific Objectives:

• Equip graduates with specialized advanced knowledge and tools to navigate complex technological environments.
• Facilitate learning in areas of electrical engineering directly linked to industry and current technology.
• Provide theoretical and computational skills for solving theoretical and practical engineering problems.
• Offer practical, hands-on experience linking fundamental knowledge and theory.
• Prepare graduates to work independently or in groups to provide engineering solutions.
• Equip graduates to design and implement systems and processes for solving engineering problems.
• Promote research, develop research skills, and provide knowledge for a successful career in research and development.
• Develop graduates' ability to write technical reports and present research before an audience.
• Provide opportunities for graduates to develop technical competence and become successful professionals.
• Prepare graduates for admission to a PhD program in electrical engineering.

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Occupational Profiles of Graduates:

• Private companies
• Public organizations
• Semi-government organizations
• Universities and colleges
• Research institutions
• Technical high schools and professional training schools
• Telecommunications companies
• Army, navy, and defense companies
• Radar and monitoring system facilities

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Access to Further Studies:

Graduates of the program can be accepted into Third Cycle degrees (Doctoral Degree).

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Outline

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Program Structure:

The program consists of 90 ECTS credits distributed across various sections:

• Section A – Core Requirements (48 ECTS Credits):
• Probability and Random Processes
• Antennas for Wireless Communications
• Fiber Optics
• Digital Communications
• Electric Power Generation, Transmission and Distribution
• Renewable Energy Sources and Technologies
• Section B – Signal Processing and Communications (0-40 ECTS Credits):
• Advanced Computer Networks
• Optical Networks
• Adaptive Signal Processing
• Detection and Estimation Theory
• Neural Networks and Fuzzy Logic
• Speech Processing
• Digital Image Processing
• Information Theory
• Communications Management
• Wireless Communications
• Satellite Communications Systems
• Section C – Electromagnetics, Antennas and Microwave Engineering (0-40 ECTS Credits):
• Microwave Circuits
• RF Circuit Design
• Electromagnetic Waves and Guided Structures
• Electromagnetic Compatibility/Electromagnetic Interference
• Applied Electromagnetics
• Computational Methods in Electromagnetics
• Section D – Renewable Energy Sources and Power Systems (0-40 ECTS Credits):
• Photovoltaics
• Power Electronics
• Smart Power Grid Management
• Wind Energy Technology
• Power System Protection
• Electrical Design, Planning and Regulations
• Section E – VLSI and Embedded Systems (0-40 ECTS Credits):
• Introduction to VLSI Design
• Fault Tolerant Computing
• Advanced Computer Architecture
• Testing and Diagnosis for VLSI Systems and Circuits
• Computer Aided Design for VLSI
• Electronic Properties of Materials
• Embedded Systems
• Section F – Seminars, Thesis and Special Topics (2-34 ECTS Credits):
• Graduate Seminars
• Thesis Research I, II and III
• Special Topics in Electrical Engineering

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Sample Semester Breakdown (Thesis Option):

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Semester 1:

• Probability and Random Processes
• Antennas for Wireless Communications
• Fiber Optics
• Electric Power Generation, Transmission & Distribution

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Semester 2:

• Digital Communications
• Renewable Energy Sources and Technologies
• Thesis Research

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Semester 3:

• Wireless Communications
• Information Theory
• Thesis Research

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Note:

This is just a sample semester breakdown and may vary depending on the student's chosen specialization and electives.

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Assessment

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Assessment Methods:

• Comprehensive final exams
• Continuous assessment, including mid-terms, assignments, and projects

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Grading System:

• Letter grades are assigned based on the weight of the final exam and continuous assessment.
• A minimum cumulative grade point average (CPA) of 2.0 is required for graduation.

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Teaching

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Teaching Methods:

• Lectures
• Tutorials
• Laboratory sessions
• Seminars

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Faculty:

The program is taught by a team of experienced and internationally recognized faculty members with expertise in various areas of electrical engineering.

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Adjunct Faculty:

The program also benefits from the expertise of adjunct faculty members from industry and research institutions.

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Careers

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Career Opportunities:

Graduates of the program are equipped for careers in a wide range of industries and sectors, including:

• Telecommunications
• Electronics
• Power systems
• Renewable energy
• Embedded systems
• Signal processing
• VLSI design

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Potential Job Titles:

• Electrical Engineer
• Communications Engineer
• Power Engineer
• Renewable Energy Engineer
• Embedded Systems Engineer
• Signal Processing Engineer
• VLSI Design Engineer

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Other

• The program is offered on a full-time and part-time basis.
• The program is taught entirely in English.
• The program includes a strong research component, with opportunities for students to participate in research projects.
• The program provides students with access to state-of-the-art facilities and equipment.

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