Bachelor of Engineering (Honours), Bachelor of Innovation major Electrical and Electronic Engineering

5 Years On Campus Bachelors Program

Curtin University Perth

Program Overview

The Bachelor of Engineering (Honours) / Bachelor of Innovation majoring in Electrical and Electronic Engineering at Curtin University is a unique 5-year double degree that combines technical engineering expertise with innovation, entrepreneurship, and creative problem-solving. Designed for students who are passionate about emerging technologies and future-focused solutions, this program develops the skills needed to design advanced engineering systems while fostering the ability to lead innovation and drive technological change across industries.

Curriculum Structure:

Year 1: Students establish a strong foundation in engineering, mathematics, science, and innovation principles. Core units introduce engineering design, programming, physics, calculus, and innovation thinking. Students develop analytical, technical, and creative problem-solving skills while gaining an understanding of how innovation drives technological advancement.

Year 2: The curriculum progresses into specialised engineering studies, including circuit analysis, digital systems, electronics, and electrical engineering fundamentals. Innovation units focus on design thinking, entrepreneurship, and creative problem-solving, encouraging students to develop innovative approaches to engineering challenges.

Year 3: Students deepen their technical expertise through studies in control systems, signal processing, communications engineering, electromagnetics, and electronics design. At the same time, innovation-focused coursework explores product development, innovation management, and emerging technologies, helping students understand how engineering solutions can create commercial and societal value.

Year 4: Advanced engineering topics include power systems, embedded systems, renewable energy technologies, automation, intelligent systems, and advanced electronics. Innovation studies emphasize leadership, technology commercialisation, project management, and entrepreneurial thinking, preparing students to lead multidisciplinary projects and innovation initiatives.

Year 5: The final year focuses on honours-level engineering studies, professional engineering practice, advanced technical electives, and a major capstone project. Students integrate their engineering and innovation knowledge to develop solutions to real-world industry challenges, often working on projects involving sustainability, smart technologies, digital transformation, or emerging engineering applications.

Focus Areas: Electrical engineering, electronic systems, communications technologies, automation, embedded systems, power systems, innovation management, entrepreneurship, and technology commercialisation.

Learning Outcomes: Graduates develop expertise in designing and analysing electrical and electronic systems, solving complex engineering challenges, leading innovation projects, applying entrepreneurial thinking, managing multidisciplinary teams, and transforming technical ideas into practical solutions.

Professional Alignment (Accreditation): The Bachelor of Engineering (Honours) component is accredited by Engineers Australia, ensuring graduates meet internationally recognised professional engineering standards and are eligible for professional engineering recognition in Australia and globally.

Reputation (Employability Rankings): Curtin University is internationally recognised for its strong industry partnerships, practical learning approach, and graduate employability outcomes. The combination of engineering and innovation provides graduates with a highly sought-after skill set that is valued across engineering, technology, energy, advanced manufacturing, consulting, start-up, and research sectors.

Experiential Learning (Research, Projects, Internships etc.)

At Curtin University, the Bachelor of Engineering (Honours) with a major in Electrical and Electronic Engineering is designed to provide students with a robust blend of theoretical knowledge and practical skills. The program emphasizes experiential learning, allowing students to engage in hands-on projects, collaborate in teams, and apply their learning in real-world contexts. With state-of-the-art facilities and cutting-edge tools, students are well-equipped to tackle the challenges of the engineering field.

Here are some key aspects of the experiential learning opportunities available in this program:

- Engineering Design Studio: A dedicated space where students can work on design projects, utilizing advanced tools and equipment to bring their ideas to life.
- Laboratories: Access to specialized labs, including the Electronics and Communications Lab, where students can conduct experiments and gain practical experience with industry-standard equipment.
- Software Tools: Familiarity with industry-relevant software such as MATLAB, Multisim, and AutoCAD, which are essential for simulation, design, and analysis in engineering projects.
- Group Projects: Collaborative projects that encourage teamwork and problem-solving, simulating real-world engineering challenges and fostering essential communication skills.
- Internships: Opportunities for industry placements that provide valuable work experience, allowing students to apply their knowledge in professional settings and build networks within the engineering community.
- Field Trips: Visits to local industries and engineering firms, giving students insights into the practical applications of their studies and exposure to potential career paths.
- Curtin Library: Access to extensive resources, including engineering journals, textbooks, and online databases, supporting research and study.
- Curtin Institute of Radio Astronomy: A unique facility that offers students the chance to engage in cutting-edge research and projects related to electrical and electronic engineering.

Progression & Future Opportunities

Graduates of the Bachelor of Engineering (Honours) majoring in Electrical and Electronic Engineering at Curtin University are equipped with the technical expertise, analytical capabilities, and practical experience needed to succeed in a rapidly evolving global engineering landscape. The program prepares students to design, develop, manage, and improve complex electrical and electronic systems across a wide range of industries, including energy, telecommunications, automation, mining, manufacturing, defence, transportation, and emerging technology sectors.

Curtin University's strong industry engagement and practical learning approach help students build the professional skills and industry networks necessary for long-term career success:

Career Development and Employability Support: Curtin Careers provides students with career planning services, resume and interview preparation, networking events, mentoring opportunities, industry engagement programs, and graduate recruitment support.
Industry Partnerships: Strong relationships with leading engineering companies, energy providers, mining organisations, telecommunications firms, government agencies, and technology companies provide students with valuable industry exposure and professional networking opportunities.
Work-Integrated Learning: Through engineering projects, laboratory work, capstone experiences, internships, and industry placements, students gain practical experience that mirrors professional engineering practice.
Professional Accreditation: The degree is accredited by Engineers Australia, ensuring graduates meet internationally recognised engineering standards and can pursue professional engineering careers both in Australia and overseas.
Emerging Industry Opportunities: Growing investment in renewable energy, smart grids, electrification, telecommunications infrastructure, automation, robotics, artificial intelligence, advanced manufacturing, and sustainable technologies continues to drive strong demand for qualified electrical and electronic engineers.
Graduate Outcomes: Graduates may pursue careers as Electrical Engineers, Electronics Engineers, Power Systems Engineers, Control Systems Engineers, Telecommunications Engineers, Automation Engineers, Embedded Systems Engineers, Renewable Energy Engineers, Project Engineers, Systems Engineers, and Technical Consultants.
Graduate Salary Potential: Entry-level graduates typically earn between AUD $80,000–$100,000 per year, depending on industry sector and location. With professional experience and technical specialisation, salaries commonly increase to AUD $120,000–$170,000+ annually.
Median Industry Salary: Electrical and Electronic Engineers in Australia generally earn median salaries of approximately AUD $110,000–$125,000 per year, with senior engineers, project managers, and engineering leaders often earning significantly higher remuneration.

Further Academic Progression:

Graduates may continue their studies through postgraduate qualifications such as a Master of Engineering, Master of Electrical Engineering, Master of Renewable Energy Engineering, Master of Engineering Management, Master of Project Management, Master of Data Science, or Master of Artificial Intelligence. Those interested in research and innovation may pursue doctoral studies (PhD) in areas such as electrical engineering, electronics, power systems, communications engineering, automation, robotics, renewable energy technologies, and smart infrastructure. Professional certifications in project management, systems engineering, renewable energy, automation, cybersecurity, and emerging technologies can further enhance career prospects and support progression into technical leadership and executive roles.

With strong technical capabilities and extensive practical experience, graduates are well-positioned to contribute to the development of future technologies and play a leading role in shaping modern engineering solutions worldwide.