Bachelor of Engineering (Honours) (Mechatronics)

4 Years On Campus Bachelors Program

Queensland University of Technology

Program Overview

Program Overview:
The Bachelor of Engineering (Honours) (Mechatronics) at QUT is an exciting, future-focused engineering degree that teaches you how to design smart machines and automated systems. By blending mechanical, electrical, and computing engineering, this program is perfect for students curious about robotics, fascinated by real-world technology challenges, and eager to work at the interface of hardware and software. Graduates can pursue careers in industries like manufacturing, aerospace, and AI-driven systems.

Curriculum Structure:

Year 1:
Your first year lays a strong foundation in engineering. Core units cover the fundamentals of engineering, introductory engineering mathematics, and statistics, equipping you with the skills to understand mechanics, electronics, and computational thinking.

Year 2:
In your second year, you’ll start exploring mechatronics-specific topics. You’ll study units on control systems, sensors and actuators, and embedded computing, applying your learning to real equipment and discovering how mechanical systems are automated.

Year 3:
Year three takes you deeper into advanced topics like robotics systems, machine learning for mechatronics, and systems integration. You’ll work on projects that bring together software, hardware, and design, collaborating in multidisciplinary teams.

Year 4 (Honours year):
The final year focuses on advanced units and a research methods + project unit. You’ll have the opportunity to lead your own engineering project, integrating your technical knowledge into a professional-level challenge and gaining experience that prepares you for real-world engineering roles.

Focus Areas:

Engineering mathematics and statistics
Sensors, actuators, and embedded systems
Robotics and automation
Systems integration
Mechatronic design and control
Industry-linked project work

Learning Outcomes:
Graduates of this program will be able to:

Design, build, and test complex mechatronic systems
Analyse and solve engineering problems across mechanical, electrical, and computing domains
Work effectively in multidisciplinary teams
Apply research methods and professional engineering practices
Collaborate with industry to deliver practical, real-world solutions

Professional Alignment (Accreditation):
The course is accredited by Engineers Australia and, as part of the Washington Accord, is recognised internationally.

Reputation and Employability:
QUT is Australia’s top-ranked research institution in robotics for six consecutive years, giving students access to state-of-the-art labs and strong employment opportunities in robotics, automation, and advanced systems.

Experiential Learning (Research, Projects, Internships etc.)

If you’re considering the Bachelor of Engineering (Honours) (Mechatronics) at Queensland University of Technology (QUT), you’ll be excited to know that the program focuses heavily on hands‑on learning. From day one, the course is designed to help you build real technical skills alongside theory, working in well‑equipped labs, using industry‑grade tools, and tackling genuine project challenges.

From the very first year, you’ll step into advanced engineering labs where you design, build, and test real systems. QUT emphasizes that you’ll have the freedom to pursue your own projects, all while being guided by experienced technical staff.

You’ll also engage in project units like Mechatronics Design 1 and Mechatronics Design 2, where you’ll focus on mechanics, electronics, and embedded software to create mechatronic products that meet real customer needs.

The course also includes around 60 days (≈450 hours) of work experience in engineering environments, giving you invaluable exposure to the professional world through its Work Integrated Learning (WIL) component.

Here’s how hands-on learning is built into the program:

Work Integrated Learning & Internships:
You are required to complete about 60 days of approved work experience in a real engineering environment. Some students have even taken six‑month internships at international companies like BMW in Europe.

Project-Based Units:
Units such as Mechatronics Design 1 (EGB220) give you a hands-on introduction to mechatronics design, combining mechanics, electronics, and embedded software in a design and build context. Follow-up units like Mechatronics Design 2 (EGB320) let you tackle more advanced mechatronic product design and implementation.

State-of-the-Art Labs & Facilities:
QUT provides access to advanced engineering labs and excellent industry links. You’ll have the opportunity to work on your own projects with guidance from expert technical staff.

Industry-Linked Clubs & Student Teams:
One standout experience is joining student-run teams like QUT Motorsport, which builds a single-seat electric race car for the Formula SAE-A competition.

Interdisciplinary Skill Development:
Because mechatronics combines mechanical, electrical, and computing disciplines, you’ll gain skills across these areas—preparing you for roles in robotics, automation, control systems, and embedded systems.

Professional Accreditation:
The degree is accredited by Engineers Australia, ensuring your qualification is recognized both in Australia and internationally.

Progression & Future Opportunities

Graduate Outcomes

Graduates of this program are well-prepared for careers at the intersection of mechanical, electrical, and computing engineering. Common roles include automation engineer, robotics engineer, and systems integration engineer. You’ll be ready to step straight into industry or research-related work, and the degree is designed with your long-term career growth in mind.

Progression & Future Opportunities

QUT provides dedicated career support through its Careers & Employment unit, helping students with résumé building, interview preparation, and networking opportunities tailored specifically to engineering disciplines.

Engineering graduates in Australia enjoy strong employment prospects: around 87% of engineering graduates secure full-time work, with median starting salaries reported in the mid-$70,000 AUD range.

The program also includes embedded Work Integrated Learning (WIL), requiring 60 days (450 hours) of approved engineering work experience. This gives you practical, professional experience and tangible portfolio evidence while exposing you to real engineering environments.

Strong industry connections are another highlight. Students have access to exclusive work placements with leading companies, including opportunities in Europe with BMW, as well as QUT’s advanced robotics research labs.

Your degree also carries long-term accreditation value. It is accredited by Engineers Australia and is a signatory to the Washington Accord, meaning your qualification is recognised in many countries—ideal if you plan to work internationally.

Graduation outcomes include roles such as automation engineer, control systems engineer, product development engineer, robotics engineer, instrumentation engineer, and more.

Further Academic Progression

After completing this honours-level bachelor degree, you can pursue:

A Master of Engineering (Research) or a Master of Advanced Manufacturing to specialise further in robotics, automation, or smart manufacturing.
A professional engineering qualification or pathway to chartered engineer status through Engineers Australia.
Research opportunities, including PhD programs, if you’re interested in moving into R&D or academic roles.