4 years February, July and October
RM53,280 Malaysian student
RM62,880 International student 2025 fees per year
Industrial training
COURSE HIGHLIGHTS
• Designed in response to the fast-paced and growing needs of the industry and our lifestyle.
• Extensive collaboration with industry which gives you a headstart in your engineering career.
• Offers a choice of specialisation in automation or AI that’ ll prepare you with essential knowledge and skills to bring your future organisation to the next level of productivity.
• External design competitions that enhance your skills and stretch your limits.
RECOMMENDATION Complete Introduction to systems engineering at level one.
CAREER PATHS The need for professionals in this progressive field is increasing. You’ ll be in high demand in many fields, including:
• artificial intelligence
• automation
• nanotechnology
• robotics
• bio-engineering
• smart manufacturing
• automation
• automotive
• deep analytics.
ROBOTICS AND MECHATRONICS ENGINEERING
KPT / JPT( R2 / 523 / 6 / 0230) 03 / 27- MQA / FA7519
Robotics and mechatronics is where autonomous and intelligent devices and systems are created, synergically employing knowledge from mechanical, electrical, and computing disciplines.
As a robotics and mechatronics engineer, you could design the control systems for a myriad of applications ranging from autonomous vehicles to miniature robots for use in medical applications. Or you might take an everyday household product and turn it into a truly clever device.
Robotics and mechatronics engineers design devices and the programs that control those devices. They’ re adept at handling vast amounts of data and creating systems that make sense of data in real time so that a fully automated manufacturing facility can operate safely and efficiently, or a car can drive completely autonomously. The applications of this field are virtually unlimited. With the knowledge and skills you’ ll have when you graduate, you’ ll be able to design, develop, manufacture and operate the intelligent products and complex systems of today and tomorrow.
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
• Electrical circuits
• Design methods
• Computer organisation and programming
• Advanced engineering mathematics
• Mechanics
• Digital systems
• Two elective units
LEVEL THREE
• Analogue electronics
• Dynamical systems
• Sensors and artificial perception
• Modeling and control
• Thermo-fluid and power systems 1
• Electrical energy systems 1
• Deep learning and neural networks
• Mechatronics and manufacturing( Automation stream) or Intelligent robotics( AI stream)
LEVEL FOUR
• Final year project A
• Final year project B
• Robotics
• Professional practice
• Engineering cyber-physical systems( Automation stream) or Computer vision( AI stream)
• Integrated design project
• Two elective units.
1 You must complete these units if you plan to seek accreditation with the Engineering Accreditation Council Malaysia.
I have a strong interest in AI and robotics, and I foresee great opportunities and growth in this field. At Monash, I really appreciated the hands-on labs and projects as they made learning much more fun and engaging, as well as letting me practice what I learned in lectures. Having the exposure and opportunity to join design competitions also shaped many unforgettable memories.”
TONG SIEW WEN
Bachelor of Mechatronics Engineering( Honours)
Computer Vision Software Engineer, Continental Automotive Singapore President, Engineers Australia Monash Student Society( 2021)
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