Cyber security is one of the fastest growing sectors in Australia and around the world with rapid technological advancement and the evolving threat environment increasing demand that is set to see around 17,000 new jobs needed by 2026. With the unprecedented penetration of computers and telecommunications systems outpacing advancements in cybersecurity, there is a significant need for telecommunications professionals with expertise in cybersecurity to ensure modern satellite, Internet of Things (IoT) and other emerging communication systems are designed from the very start - with consideration for cybersecurity. The only master's degree of its type in Australia, this program will prepare you to perform design, cybersecurity, research and development, and analytics roles with government agencies, defence contractors or IoT companies. It may also lead to a career in research, with a PhD in space, telecommunications, software, systems or satellite engineering, or the engineering of secure emerging technologies.
In your first year you'll study specialist courses covering topics such as big data concepts, systems engineering, critical infrastructure and control system security, cryptography and data protection, and digital communications. In second year you'll take further specialist cyber engineering and telecommunications courses including telecommunications and device security, statistical programming for data science, information theory and coding and mobile communications and wireless access. Also key to this degree is the development and application of research methods and skills. These will be invaluable when you begin work on your minor thesis. Our UniSA STEM Professional Practice Program allows you to apply the skills and knowledge you've acquired throughout your degree in real-world settings.
Developed to address industry demand for highly qualified cyber engineering and telecommunications professionals, you will learn directly from renowned experts; studying advanced topics in cyber engineering, telecommunications, big data and systems engineering, with a research component also incorporated in the program, including a minor thesis.
Our telecommunications students have worked on industry-related projects such as:
indoor localisation based on visible light communications
digital signal processing applied to a variety of practical problems (such as radar-based vehicle collision prevention system)
various aspects of the Internet of Things
Incorporating strong theoretical teaching, experience-based learning and modern facilities, we offer the ideal academic blend for graduates to meet the challenges of contemporary industry practice. Learning is supported by world-class engineering research and industry experience to elevate your expertise and career opportunities.