ELECTRICAL AND COMPUTER SYSTEMS ENGINEERING
KPT / JPT( R3 / 523 / 6 / 0081) 04 / 29- MQA / FA7521
This course is a unique blend of electronics, computer systems, electrical power and telecommunications engineering.
Electrical and computer systems engineering is an extremely diverse field that can contribute to various fields such as biomedical, semiconductors, electrical power, AI, robotics and telecommunications. As an electrical and computer systems engineer, you’ ll develop and design next-generation communication technologies, semiconductor chips, electronic sensors and devices, and smart solutions for various industries.
At Monash, you have the opportunity to be exposed to the real engineering world during your studies through design competitions and industry-sponsored projects. You can also take minors in the fields of artificial intelligence, semiconductor technology, Internet of Things, intelligent manufacturing and electric vehicles to further equip you with industry-relevant skills.
Course structure
You’ ll complete 108 points of core units and 36 points of electives to graduate. Units offered in levels two to four are listed below. Units have a value of six credit points, unless stated otherwise.
LEVEL TWO
• Signals and systems
• Probability and AI for engineers
• Electrical circuits
• Systems programming
• Digital systems
• Advanced engineering mathematics
• Two level two / three electives
LEVEL THREE
• Analogue electronics
• Electrical energy systems
• Computer systems
• Information and networks
• Control system design
• Two level three / four electives
LEVEL FOUR
• Project A
• Project B
• Engineering integrated design
• Professional practice
• Two core electives
• Two level three / four electives
Elective units
LEVEL TWO
• Solid mechanics 1
• Introduction to systems engineering
LEVEL THREE
• Optimisation and numerical methods for engineers
• Material properties and selection
• Sensors and artificial perception
LEVEL FOUR
• Advanced control
• Optical communications
• Telecommunications protocols
• Network performance
• Power system analysis
• Integrated circuit design
• Real time embedded systems
• Computer vision
• Intelligent robotics
• Advanced electromagnetics
• Multimedia technologies
• Neural networks and deep learning
• Microsystems and semiconductor fabrication
• Solid state lighting
• Internet of things: Communication, data and security
• Smart grids.
4 years February, July and October
RM54,720 Malaysian student
RM64,800 International student 2026 fees per year
Professionally accredited Industrial training
COURSE HIGHLIGHTS
• A multifaceted electrical engineering degree unlike any other in Malaysia.
• Learn in four specialised labs supporting projects and world-class research in deep learning, Internet of things, intelligent lighting, and micro and nano devices.
• Get a headstart in your engineering career through our extensive collaboration with industry.
• Enhance your skills and stretch your limits with external design competitions.
CAREER PATHS You could work in a wide range of industries, including:
• artificial intelligence
• automation
• computer systems
• electric vehicle
• healthcare
• industrial and power electronics
• Internet of Things( IoT)
• intelligent manufacturing
• power generation
• robotics
• semiconductor technology
• software engineering
• technology consultancy
• telecommunications
I’ ve always enjoyed solving sophisticated problems and appreciated how engineering blends creativity with logic. It is a great creative outlet that could build a world of endless possibilities. It was pretty well known that Monash offers a strong engineering program, and I chose Monash because I believed it would prepare me the best for real-world application.”
HING SHU LI
Bachelor of Electrical and Computer Systems Engineering( Honours) Firmware Engineer, Maistorage Technology
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