Master of Electrical Engineering - MEE

About the program

This programme is designed to expose and prepare the students with the capabilities of solving advanced level of complex engineering problems in electrical and electronics engineering. It covers electrical and electronic engineering disciplines for the prospective students to choose which are Electrical Power Engineering, Computer Engineering, Medical Electronic Engineering, Mechatronic Engineering, Communication Engineering and Microelectronic Engineering. The program structure contains compulsory courses offered by the faculty, and elective courses which could be selected based on students’ preferred specialization. Graduates of this program are trained to be competent in the field of electrical and electronic engineering in order to fulfill the industrial demand at the national and international level. In addition, students are equipped with the necessary generic skills which are to be applied holistically in their professional engineering practice. On top of that, the graduates are nurtured to perform their work ethically and faithfully according to the needs of global society.

Full Time – International

Minimum 3 Semesters (1.5 Years) 

  1. Computer & Microcomputer Engineer
  2. Network & Computer System Admin.
  3. Network System & Data Communication Analyst
  4. Computer Software Engineer
  5. Computer System Analyst

Master of Electrical Engineering is accredited by the Malaysian Qualification Agencies (MQA).

Basic Qualifications

  • Bachelor Degree in Engineering or Science from recognized institutions with minimum CPA of 2.50 and related experience in related field recognized by the UTHM Senate.
  • Minimum score of MUET Band 3 or TOELF 500 or IELTS 5.0.

September Intake:

Year 1 

Semester 1

Advanced Engineering Mathematics
Programmable Electronics
Advanced Digital Signal Processing
Computational Intelligence

Semester 2

Advanced Power Electronics
Research Methodology
Master Project I
Three (3) Elective

Year 2

Semester 3

Master Project II


February Intake:

Year 1 

Semester 1

Advanced Power Electronics
Research Methodology
Three (3) Elective

Semester 2

Advanced Engineering Mathematics
Programmable Electronics
Advanced Digital Signal Processing
Computational Intelligence
Master Project I

Year 2

Semester 3

Master Project II


Elective Subjects:



1) Electrical Power Engineering

1. Electric Drives and Applications

2. Industrial Power System

3. High Voltage Technology

4. Electrical Power Quality

5. Power System Protection

6. Power System Operation and Control

2) Communication Engineering

1. RF and Microwave Engineering

2. Electromagnetic Compatibility

3. Antenna and Propagations

4. Broadband Networks

5. Wireless and Mobile Communication

6. Advanced Optical Communication

3) Computer Engineering

1. System on Chip

2. Deep Learning

3. Advanced System Engineering

4. Advanced Multimedia Processing

5. Advanced Computer Network

4) Microelectronic Engineering

1. VLSI System Design

2. Modelling MEMS and CAD Design

3. Integrated Circuit Processing

4. Semiconductor Devices and Materials

5. Nanoelectronic Technology

5) Mechatronic Engineering

1. Mechatronics System

2. Advanced Digital Control System

3. Automation System

4. Advanced Industrial Robotics

5. Robot Vision System

6) Medical Electronic Engineering

1. Advanced Medical Imaging

2. Bioinstrumentation

3. Biomedical Materials

4. Biosensor: Principle and Application

5. Data Processing in Medicine




Practice knowledge and practical competency in an electrical engineering discipline at advanced level


Practice the profession of engineering at an advanced level


Perform research independently at advanced level

  1. Demonstrate in-depth knowledge and understanding of theory and advanced concepts in electrical engineering discipline
  2. Solve electrical engineering problems using scientific skill and critical thinking
  3. Apply advanced practical skill in the discipline of electrical engineering
  4. Work in group and perform networking with individual and community in the field of electrical engineering
  5. Demonstrate capabilities of communication regarding advanced technical electrical concepts
  6. Competently use a wide range of suitable information and digital technologies and appropriate software to enhance study and practice in the field of electrical engineering
  7. Apply mathematical and other quantitative, qualitative tools to analyze and evaluate numerical and graphical data in the field of electrical engineering
  8. Demonstrate leadership qualities with variation of degree of autonomy in making decision and showing responsibility and accountability in performing works
  9. Portray daily used skills including showing enthusiasm and commitment in life-long learning in the field of electrical engineering
  10. To foster entrepreneurial interest and skills in managing electrical engineering-related projects within the organization
  11. Conduct learning and research related to electrical engineering with minimal supervision and compliance with legal, ethical, values and professional codes of practice