Outline
Outline
This course is a major in the Bachelor of Engineering (Honours) degree.
Mechatronic engineers work at the interface of mechanical devices and electronic control systems. Rapid advances in automation applications – such as self-driving vehicles and industrial automation – are driving an increased need for mechatronic engineers with expertise in mechanical, electronic and computer systems engineering.
The expansion of robotics and autonomous systems also means that industries offering careers in mechatronic engineering are expanding, including transportation, agriculture, medicine and health, biotechnology, mining, energy and aerospace.
In this course you will develop sound theoretical knowledge in the key disciplines of mechanics, electronics, computer systems and control. You’ll learn how to apply this knowledge through projects in mobile robot communications and automation, pneumatic automation systems and machine control.
In your final year of study, you’ll undertake a major research or design project.
Double degree options
You can study a Bachelor of Engineering (Mechatronic Engineering) with a Bachelor of Science (Computer Science).
How this course will make you industry ready
This major will equip you with a range of engineering skills and knowledge, enabling opportunities in mechanical design, instrumentation, automation, robotics and other fields.
What jobs can the Mechatronic Engineering lead to?
Careers
- Mechatronic engineer
- Mechanical engineer
- Automation engineer
- Computer systems engineer
- Data scientist
Industries
- Aerospace
- Agritechnology
- Autonomous vehicle
- Biosensors and security
- Biotechnology and biomechanics
- Manufacturing
- Mining and resources
- Oil and gas
- Renewable energy
- Robotics
- Subsea engineering
Further study
What you'll learn
- Demonstrate a conceptual understanding of fundamental science, mathematics, data analytics, information science, and computing underpinning the broad field of engineering, GC1
- Solve complex mechatronic engineering problems of industrial and societal significance through the application of discipline-specific and integrated bodies of knowledge, design and sustainability principles, GC1
- Make decisions related to the design and implementation of solutions to engineering problems in a safe, ethical, and climate-responsible manner adhering to legal and professional standards and through respectful partnerships with local First Peoples and other diverse cultures as globally responsible citizens, GC4, GC5
- Apply systems thinking for innovative solutions to global mechatronic engineering challenges, discern knowledge and undertake applied research in a discipline of mechatronic engineering, GC2
- Select and use current and emerging technologies to develop and communicate effective and innovative engineering solutions to complex problems, GC3
- Demonstrate lifelong learning habits, teamwork and leadership abilities, project management skills, and the ability to identify opportunities for career-wide professional growth, necessary for advancing a career in engineering and beyond, GC6