Master of Science in Electrical Engineering MSEE
Program Objectives and Learning Outcomes
Educational Aims of the Program
The Program Objectives (POs) of the Master of Science in Electrical Engineering program are shown in table 1 below:
Table 1: Program Objectives of MSEE
|
PO1.
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Students will have advanced knowledge of ethical and professional practices in electrical engineering by being aware of the impact of electrical systems on humans and the environment.
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PO2.
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Students will be trained to engage in lifelong learning, not only to grow professionally but also to benefit the society.
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PO3.
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Students will have advanced skills for a successful professional career in electrical engineering related industries.
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PO4.
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Students will be taught advanced critical thinking, teamwork collaborations and communication skills to solve real-life electrical engineering challenges.
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Program Learning Outcomes
The Program Learning Outcomes (PLOs) of the MSEE are shown in table 2 follows:
Table 2: Program Learning Outcomes of MSEE
After graduation MSEE students will be able to:
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PLO1.
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Solve Electrical Engineering problems through applying advanced knowledge in mathematics and science.
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PLO2.
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Work in teams and be able to communicate in a professional and ethical manner.
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PLO3.
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Apply appropriately selected research methodologies and modern engineering tools to model and analyze electrical engineering systems.
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PLO4.
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Develop novel solutions for complex electrical engineering problems using advanced applied research.
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Completion Requirements
The MSEE degree is awarded upon the successful completion of a minimum of 30 credit hours with a minimum CGPA of 3.00 out of 4.00. The program is composed of 3 core courses, 5 electives and a thesis.
MSEE Program Learning Outcomes
lease click on the following link to access the Mapping MSEE PLOs and the Level-7 descriptors of the strands of QFEmirates
Curriculum and Study Plan
Program Structure
MSEE Program Curricula
The MSEE program is composed of 30 Credit Hours, distributed as illustrated below:
#
|
Category
|
Number of Courses
|
Credit Hours
|
1
|
Core Courses
|
4
|
12
|
2
|
Thesis
|
1
|
6
|
3
|
Elective Courses
|
4
|
12
|
Total
|
9
|
30
|
Core (MSEE) Courses
Students are required to take the following compulsory Core Courses:
S.No
|
Course Code
|
Course Title
|
Prerequisite
|
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
|
9
|
Thesis Requirement
S.N0
|
Course Code
|
Course Title
|
Prerequisite
|
Co-requisite
|
C.H.
|
1
|
ENEE 600
|
Thesis
|
None
|
ENRM 500
Approval of Program Director/Dean
|
6
|
|
Total
|
6
|
Elective Courses
(Student has to select any four courses (12CH) from the below list)
S.No
|
Course Code
|
Course Title
|
Prerequisite
|
Co-requisite
|
C.H.
|
1
|
EEDS 600
|
Advanced Digital Signal Processing
|
ENAM 500
|
None
|
3
|
2 |
EERF 600
|
Advanced RF and Microwave Engineering
|
ENAM 500
|
None
|
3
|
3 |
EERS 600
|
Modern Radar Systems
|
ENAM 500
|
None
|
3
|
4 |
EESC 600
|
Advanced Satellite Communication
|
EEDC 600
|
None
|
3
|
5 |
EEWC 600
|
Advanced Topics in Wireless Communications
|
EEDC 600
|
None
|
3
|
Semester 1
Semester 2
EEDC 500 | Advanced Digital Communications | 3 |
| Elective 1 | |
| Elective 2 | |
Semester 3
ENEE 600 | Electrical Engineering Masters Thesis | 3 |
| Elective 3 | |
Semester 4
ENEE 600 | Electrical Engineering Masters Thesis | 3 |
| Elective 4 | |