The world is advancing rapidly. Modern and emerging societies face new demands.
Higher degree research study
Discover what Higher Degree Research Study in engineering or IT is all about
Gain an insight into what Engineering & IT higher degree research study is all about and find out if it's right for you. Hear from key academics about what it's like to study Higher degree research at UTS and how best to prepare.
Who are we?
UTS Engineering and IT is an innovative and research-intensive faculty with a strong reputation for its practice-based learning programs and industry engagement.
Our goal is to produce impact-driven, user-centred research outcomes and to incorporate this into our students’ learning. We have a strong focus on collaborative research with the aim of improving individual lives and society as a whole, not just in Australia but around the globe.
Authentic work experiences
You won’t be working in a bubble. We’re renowned for industry engagement on real-world projects. You could be addressing rising congestion on a train network, optimising the performance of an underwater vehicle with a team of students, or developing customer service solutions for a global telecom company. Who knows where your research can take you and the relationships you’ll forge.
It's all about knowledge.
The idea is that when you do a PhD you want to discover something. It's all about learning how to solve problems.
People think that PhDs only stay in academia but beyond that in the industry is also interested in doing research and development.
Within CAS, the Centre for Autonomous Systems, we do research in robotics. We have, for example, the climbing robot of the Sydney Harbour Bridge and we have other robots in agriculture, defence and transport. The Faculty of Engineering & IT has a long history of collaborating with the industry.
Most of our PhD students are tackling real-world problems. For instance, a group of our PhD students is currently collaborating with the Department of Defence to develop new algorithms and navigation for an underwater glider.
My team is working with the underwater glider which is a very energy efficient piece of technology. It travels up to 3 months without coming back to recharge. Our industry partner is especially interested in gathering data from multiple sources so we'll send this out simultaneously and we'll gather the data and piece it together.
Working with these industry partners is very different than working with academia because the kind of problems they give you is based on the real world so the kind of solutions we need to give them is something that`s backed with theory and some technical details so that problem is solved.
In robotics and other fields of engineering, it is very hard to work in isolation.
In CAS, we have wide open spaces for collaborative research and this really fosters the collaboration between different people, allowing us to solve problems that really give the outcomes the world needs.
The best skill you can develop as a PhD is the ability to think critically. Besides becoming an expert on a specific field, you will be able to develop a hypothesis, test it, develop the experiment and all these skills are really applicable for real-world problems.
Skills for life
We want your learnings to stay with you—and be useful. Skills to collaborate in and manage teams. Entrepreneurship and launching startups. Transformative problem solving via design thinking. Take them into the workforce and help shape the future.
