Master of Engineering (Electronic)

Stand out in your industry

Electronic engineers possess highly sought-after skills and the knowledge needed to deliver innovative solutions. They design and construct products and services we use each and every day-from smart devices to medical imagery, information systems to security and defence technologies.

This intensive degree is suited to high-achieving engineering graduates, as well as engineers with relevant work experience. It is fully accredited by

Our Master of Engineering (Electronic) comprises a foundation year and an advanced studies year. You will:

• study the principles of control and communication systems
• build communication and project management skills
• gain advanced understandings in mathematics and systems engineering
• pursue specialist topics-from telecommunications and microelectronics to image sensors and processing
• undertake a significant research project.

You could drive research and development into autonomous vehicles, or energy-efficient transport. You might work on state-of-the-art avionics as an electronic engineer with the air force. Perhaps you'll build digital hardware for computers or artificial intelligence.

• Ranked 25 globally for electrical and electronic engineering^
• Undertake a major research project supervised by world-class academic staff
• Graduates qualify for professional membership with Engineers Australia

^US News Global University Ranking, 2023

• 12 units of core courses;
• 12 units of foundation courses;
• 12 units of advanced technical coursework and;
• a project to the value of 12 units, which introduces candidates to research.

Program Learning Outcomes

1. Employ highly developed oral and written communication skills to communicate complex information and present persuasive arguments.
2. Exercise professional judgement, founded on a strong commitment to principles of continuing professional development, ethics, sustainability and social responsibility.
3. Contribute pro-actively to the work of teams, both as a team member and a team leader, and maintain respectful, constructive and diverse team environments.
4. Plan and manage resources using systematic methodologies to create solutions to complex engineering problems.
5. Think critically and independently, apply logic and exercise judgement to create safe and sustainable outcomes.
6. Apply in-depth knowledge of the principles and methods of research, and of the research directions in the nominated field of specialisation to devise innovative engineering solutions.
7. Demonstrate comprehensive knowledge of the natural and physical sciences, and mathematical and computer sciences, which underpin the nominated field of specialisation.
8. Apply an in-depth specialist body of knowledge and skills in the nominated field of specialisation.
9. Create innovative solutions to complex socio-technical problems using the established engineering methods, tools and processes in the nominated field of specialisation.