Victoria University Power Sensing & Telecommunication (VUPST)
The Victoria University Power Sensing (VUPS) group aims to pioneer the future of power systems monitoring, reliability, and protection by the research and development of innovative solutions.
We work at the cutting-edge of power systems asset management and digitisation, by harnessing advancements in edge computing, IoT, signal processing, AI, and communication.
About the VUPS Group
The Victoria University Power Sensing (VUPS) Group intends to lead the charge in revolutionising power systems with state-of-the-art research and development, focusing on enhancing monitoring, reliability, and protection.
Our strategic application of IoT, machine learning, and smart grid technologies positions us at the cutting-edge of the industry, driving advancements in renewable energy integration and grid digitisation.
We specialise in:
- advanced monitoring and diagnostic solutions
- grid health and performance optimisation
- fault detection and localisation
- industrial power system management
- predictive analytics and machine learning
- smart grid and IoT applications
- smart grid integration with renewable energy sources
- smart disaster response technologies
- educational and research collaborations.
SWER Broken Conductor Detection project
Our flagship project, 'SWER Broken Conductor Detection' utlises innovative approaches in PLC and edge computing for the lasting challenge of detecting broken conductors in regional areas. The project has attracted $1.5 million in funding and demonstrates our commitment to addressing persistent issues within the power systems sector.
Currently on its third-stage of development, the group is working on bringing the developed devices to a commercial level. We're further developing capabilities to locate the conductor breakages, and monitor networks for disturbances such as high-impedance faults and other fire-igniting sources.
Our mission
The transition towards sustainable energy and the advent of smart grids necessitates profound advancements across grid digitisation, connectivity, flexibility, and monitoring.
We aim to be at the forefront of supporting these developments by leveraging core competencies in:
- Power-Line Carrier (PLC) technology
- hardware design
- software/embedded/firmware development
- data analysis/research
- signal processing, instrumentation, and modelling.
Our team deeply skilled in advanced signal processing, robust hardware design for power systems, sophisticated software solutions for real-time analysis, and comprehensive data analysis and research methodologies, we're dedicated to developing smarter, more resilient power solutions.
Work with us
We're always seeking new opportunities to expand our impact, through industry collaborations and practical applications of our research.
Our previous work not only emphasises the advanced data analytics and machine learning for predictive maintenance but also the development of real-time monitoring systems that ensure grid integrity and resilience.
We aspire to facilitate partnerships that harness collective expertise, resources, and creativity across various fields. Whether it's through joint ventures, research initiatives, or co-developing technologies, we offer a wide array of opportunities for collaboration.
We've previously established partnerships with:
- PowerCor
- AusNet
- United Energy
- the Victorian Government
- the Australian Research Council.
Our goal is to create synergies that not only advance our R&D objectives but also contribute to broader social benefits.
Whether you're a potential PhD student, researcher, technologist or a partner in the industry, there's a place for you at VUPS to contribute to the future of power systems technology.
Power System Innovation Lab
Our Power System Innovation Lab is a hub of activity, where ideas translate into real-world applications.
Equipped with state-of-the-art tools, the lab facilitates rigorous research and dynamic testing.
This environment supports our ongoing projects and helps in developing solutions that are practical and scalable.
Projects & selected publications
Our work has been published in high-ranking journals and featured extensively in the media – particularly our approaches to conductor breakage detection and high-impedance fault analysis.
These results not only advance technology but also provide benefits to communities by enhancing safety and sustainability.