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Master of Science in Electrical Engineering
June 6, 2023 2023-12-14 7:54- College Of Engineering & IT
- graduate
Master of Science in Electrical Engineering
Fall & Spring
Intake
Full & Part time
Study Mode
30 hours
Total Credit Hours
2 years
Duration
English
Language
Overview
A Master of Science (M.S.) in Electrical Engineering is a postgraduate degree that provides advanced education and specialization in the field of electrical engineering. It is typically pursued by individuals who have a strong foundation in electrical engineering and wish to deepen their knowledge, skills, and expertise in specific areas.
The program usually requires students to have a bachelor’s degree in electrical engineering or a related discipline, although some universities may admit students with a different undergraduate background if they complete prerequisite courses. The duration of the program can vary but is typically two years of full-time study.
The curriculum of an M.S. in Electrical Engineering is designed to provide a balance between theoretical knowledge and practical skills. It covers a wide range of topics related to electrical engineering, such as power systems, control systems, electronics, signal processing, communication systems, computer architecture, and more. Students may have the opportunity to specialize in a particular area of interest through elective courses and research projects.
Key components of an M.S. in Electrical Engineering program may include:
- Core Courses: These courses provide a solid foundation in electrical engineering principles and cover topics like circuit analysis, electromagnetic theory, digital systems, and mathematics for engineering.
- Specialization Courses: Students can choose elective courses based on their interests and career goals. These courses delve deeper into specific areas such as power electronics, wireless communications, robotics, VLSI design, renewable energy systems, or signal processing.
- Laboratory Work: Practical experience is an integral part of the program. Students typically engage in laboratory work, design projects, or experiments to apply theoretical concepts and gain hands-on experience with equipment, software, and instrumentation.
- Research Thesis/Project: Many M.S. programs require students to complete a research thesis or a capstone project. This involves conducting independent research or working on an industry-related project under the guidance of a faculty advisor. The thesis/project allows students to showcase their ability to solve complex problems and contribute to the advancement of electrical engineering knowledge.
- Seminars and Workshops: Students may attend seminars, workshops, or guest lectures conducted by industry professionals and researchers to stay updated with the latest advancements and emerging trends in the field.
Admission Requirement
| Regular Admission | Conditional Admission |
| Accredited bachelor’s degree in Engineering with a minimum GPA of 3.0 | Accredited bachelor’s degree in Engineering with a minimum GPA of 2.50 – 2.99 |
| EmSAT 1400 I Academic IELTS 6.0 or TOEFL (PBT 550 or IBT 79 or CBT 213) | EmSAT 1250 or Academic IELTS 5.5 or TOEFL (PBT 530 or IBT 71 or CBT 197) |
Who is the program for?
The Master of Science (M.S.) in Electrical Engineering program is typically designed for individuals who have a strong foundation in electrical engineering and wish to advance their knowledge, skills, and career prospects in the field. The program is suitable for:
- Bachelor’s Degree Graduates: The program is ideal for students who have completed a bachelor’s degree in electrical engineering or a related field. It allows them to deepen their understanding of electrical engineering principles and specialize in specific areas of interest.
- Professionals Seeking Career Advancement: The M.S. program is beneficial for working professionals in the field of electrical engineering who want to enhance their technical expertise and expand their career opportunities. It can help them acquire advanced knowledge and skills that can lead to promotions, leadership roles, or specialized positions in their current organization or industry.
- Individuals with a Different Background: Some universities may admit students with a different undergraduate background, such as physics or computer science, if they complete prerequisite courses to establish a foundation in electrical engineering concepts. This allows individuals from related fields to transition into electrical engineering and pursue advanced studies in the discipline.
- Research and Academic Aspirants: The M.S. program is suitable for individuals interested in research or pursuing a career in academia. It provides them with the opportunity to engage in independent research, work closely with faculty members, and contribute to the advancement of knowledge in the field through a research thesis or project.
- Those Seeking Specialization: The program is beneficial for individuals who wish to specialize in specific areas of electrical engineering. By choosing elective courses and research projects aligned with their interests, students can focus on areas such as power systems, control systems, electronics, communication systems, signal processing, or renewable energy.
Career Opportunities
A Master of Science (M.S.) in Electrical Engineering opens up a wide range of career opportunities in various industries. Here are some common career paths that graduates can pursue:
- Electrical Engineer: Graduates can work as electrical engineers in industries such as power systems, telecommunications, electronics, renewable energy, manufacturing, or automotive. They are involved in designing, developing, testing, and maintaining electrical systems, components, and devices.
- Electronics Engineer: With expertise in electronics, M.S. graduates can work as electronics engineers, focusing on designing and developing electronic circuits, systems, and devices. They can work in industries such as consumer electronics, telecommunications, semiconductor manufacturing, or aerospace.
- Control Systems Engineer: Graduates specializing in control systems can work in industries that involve automation, robotics, or process control. They design and implement control systems to regulate and optimize the performance of complex systems and processes.
- Power Systems Engineer: This career path involves working in the field of electric power generation, transmission, and distribution. Graduates can design and analyze power systems, work on renewable energy projects, optimize energy efficiency, or ensure grid stability and reliability.
- Communication Systems Engineer: With expertise in communication systems, graduates can work in industries related to wireless communication, networking, or satellite systems. They can be involved in designing and optimizing communication networks, developing protocols, or working on wireless technology advancements.
- Research Scientist: M.S. graduates can pursue research-oriented careers in academia, government research institutions, or private research and development (R&D) companies. They contribute to scientific advancements, conduct experiments, develop new technologies, and publish their findings in journals or conferences.
- Project Manager: With their technical knowledge and leadership skills, M.S. graduates can take on project management roles in engineering companies. They oversee the planning, execution, and completion of projects, manage teams, budgets, and resources, and ensure the successful delivery of engineering projects.
- Consultant: Graduates can work as engineering consultants, providing specialized expertise and advice to clients in areas such as energy systems, telecommunications, or electronics. They may work for consulting firms or as independent consultants.
- Academia and Teaching: M.S. graduates can pursue a career in academia as professors, lecturers, or researchers in universities or research institutions. They can teach courses, supervise students, and contribute to cutting-edge research in their field of specialization.
- Entrepreneurship: Some graduates may choose to start their own technology-based ventures, utilizing their technical knowledge to develop innovative products, services, or solutions in areas like electronics, automation, or renewable energy.
Estimated salary range
The salary range for individuals with a Master of Science (M.S.) in Electrical Engineering in the United Arab Emirates (UAE) can vary depending on several factors, including years of experience, specialization, industry, company size, and location. It’s important to note that the figures provided are approximate and can change over time.
On average, the salary range for M.S. Electrical Engineering graduates in the UAE is as follows:
- Entry-Level Positions: For fresh graduates or individuals with less than two years of experience, the salary range is typically between AED 8,000 to AED 15,000 per month (approximately $2,180 to $4,080 USD).
- Mid-Level Positions: With a few years of experience, mid-level professionals can expect a salary range of AED 15,000 to AED 25,000 per month (approximately $4,080 to $6,810 USD).
- Senior-Level Positions: Those with significant experience and expertise in a specialized area can earn a salary range of AED 25,000 to AED 45,000 per month (approximately $6,810 to $12,250 USD) or more.
Study Plan
Core Courses
| No. | Course Code | Course Title | Pre-requisite | Co-requisite | C.H. |
| 1 | ENRM 500 | Research Methods | None | None | 3 |
| 2 | ENAI 500 | Advance Artificial Intelligence | None | None | 3 |
| 3 | ENAM 500 | Advanced Engineering Mathematics | None | None | 3 |
| 4 | EEDC 500 | Advanced Digital Communication Systems | None | None | 3 |
| Total | 12 |
Elective Courses
| (Student to Select only 4 courses from the below list) No. | Elective | Course Code | Course Title | Pre-requisite | Co-requisite | C.H. |
| 1 | Elective 1 | EEDS 600 | Advanced Digital Signal Processing | ENAM 500 | None | 3 |
| 2 | Elective 2 | EERF 600 | Advanced RF and Microwave Engineering | ENAM 500 | None | 3 |
| 3 | Elective 3 | EERS 600 | Modern Radar Systems | ENAM 500 | None | 3 |
| 4 | Elective 4 | EESC 600 | Advanced Satellite Communication | EEDC 600 | None | 3 |
| 5 | Elective 5 | EEWC 600 | Advanced Topics in Wireless Communications | EEDC 600 | None | 3 |
Thesis
| No. | Course Code | Course Title | Pre-requisite | Co-requisite | C.H. |
| 1 | ENEE 600 | Thesis | None |
|
6 |
| Total | 6 |
