Help engineer the future
Forget about robots coming to take your job – instead, make it your job to design the robots and automated systems of the future. Mechatronics is an exciting field that combines the best of mechanical, electrical and electronic and computer engineering to create new technologies and constantly improve the systems around us. With automation set to play an increasing role in almost every product and industry, this degree will give you skills that are in demand and future-proof your engineering career.
- Only a full-time option is available to international students on a Student visa. Online programs are not available to Student visa holders.
- * Estimated tuition fees are based on 2025 rates. Refer to international fees for more information.
- Not all majors/minors and elective options are available at every campus. You should refer to the What Can I Study tab, and the proposed study sequence for your chosen campus and intake for further information.
- ^First year courses offered at Moreton Bay campus from Semester 1, 2020.
- ^First year courses offered at Moreton Bay campus from Semester 1, 2020.
Forget about robots coming to take your job – instead, make it your job to design the robots and automated systems of the future. Mechatronics is an exciting field that combines the best of mechanical, electrical and electronic and computer engineering to create new technologies and constantly improve the systems around us. With automation set to play an increasing role in almost every product and industry, this degree will give you skills that are in demand and future-proof your engineering career.
In this degree you will:
- Study the fundamentals of engineering, including applied maths, physics, statistics and system design
- Learn about robotics and autonomous systems, communication engineering, digital logic and computer programming, machine vision and more
- Choose the area you want to specialise in, including electrical and electronic or mechanical engineering, management or entrepreneurship
- Get hands-on project management experience by designing your own major engineering research project
Career opportunities
Mechatronics engineers work across a range of fields, including robotics engineering, industrial engineering and product design, manufacturing, data communications, automotive and more.
Membership
Engineering students are eligible for free membership to Engineers Australia. Once their degree is complete they are eligible for Graduate membership.
Accreditation
This program is currently undergoing provisional accreditation by Engineers Australia.
Program structure
Introductory courses (8) 96 units
COR109 Innovation, Creativity and Entrepreneurship
ENG101 Environment, Technology and Sustainability
ENG102 Cell Biology
ENG103 Introduction to Mathematics
ENG104 Chemistry
MTH103 Science Research Methods
MTH104 Human Physiology
SCI107 Human Anatomy
Developing courses (8) 96 units
ELC200 Biodiversity and Ecology
ELC201 Physics
ELC205 Foundations of Sustainability
MEC200 Communication and Thought
MEC205 Foundations of Engineering
MEC221 Engineering Statics
MEC225 Introduction to the Internet of Things
MCH200 Introduction to Engineering Design
Graduate courses (12) 144 units
MTH201 Introduction to Applied Mathematics
MTH203 Introductory Calculus
ELC301 Physics
ELC304 Digital Logic and Computer Programming
ENG302 Electronic Circuits: Fundamental Theory and Applications
ENG304 Introduction to Control Systems
MCH301 Thermofluids 1
MEC336 Dynamics 1
ELC400 Mechanics of Materials
ENG401 Engineering Materials
ENG402 Mechatronic Design 1
MCH400 Calculus II and Linear Algebra
Minor courses (4) 48 units
Students must select one of the following minor study areas:
- Electrical and Electronic Engineering (for Mechatronic Engineers)
- Mechanical Engineering (for Mechatronic Engineers)
- Civil Engineering (for Mechanical and Mechatronic Engineers)
- Climate Change and Coastal Zone Studies
- Environmental Studies for Engineers
- Management for Engineers
- Entrepreneurship
- Wider Engineering Studies
Honours
The Bachelor of Engineering (Mechatronic) (Honours) may be awarded with a class of Honours to a
student:
- with the percentage results achieved in twelve courses as specified in the table below; and
- achieving at least 65% in ENG402 Engineering Research Project 2.
| Courses |
| MTH203 Numerical Analysis |
| MCH200 Communications Engineering (Hardware and protocols) |
| ELC301 Embedded System Design |
| MEC336 Engineering Project Management |
| ENG302 Engineering Research Methodology |
| MCH301 Mechatronic Design 2 |
| ELC304 Engineering System Design |
| ENG304 Robotics and Autonomous Systems |
| ENG401 Engineering Project 1 |
| ENG402 Engineering Project 2 |
| ELC400 Image Processing and Machine Vision |
| MCH400 Numerical Analysis |
- The minimum levels of achievement normally required for each class of honours are shown in the following table:
| Honours results classification | Overall Percentage attained in Specified Courses* |
| Honours Class I | 80% - 100% |
| Honours Class IIA | 70% - 79% |
| Honours Class IIB | 60% - 69% |
*The percentage result shall be rounded up if ≥ 0.5 or rounded down if < 0.5.
Note: Program structures are subject to change. Not all USC courses are available on every USC campus.
Total units: 384
Recommended study sequences
Program requirements and notes
Program requirements
In order to graduate you must:
- Successfully complete 384 units as outlined in the Program Structure
- Select a minor from one of the minors as listed below. Students must choose the minor to be studied before the completion of Semester 1, Year 3
- Complete a minimum of 60 days of suitable work experience. Students must meet all costs associated with the acquisition of practical experience to satisfy this requirement
Program notes
- Completing this program within the specified (full-time) duration is based on studying 48 unit points per semester (normally 4 courses) and following the recommended study sequence
- The unit value of all courses is 12 units unless otherwise specified
- It is each students responsibility to enrol correctly according to your course requisites, program rules and requirements and be aware of the academic calendar dates
- Courses within this program are assessed using a variety of assessment methods including essays, seminar presentations, reports, in-class tests and examinations. Not all courses will necessarily include all methods
- As part of your USC program, you may apply to Study Overseas to undertake courses with an overseas higher education provider
- Refer to the Managing your progression page for help in understanding your program structure, reviewing your progress and planning remaining courses.