Engineering (Electronics and Communications)

This course combines the fundamental engineering disciplines of electronic and communication systems. It gives graduates with skills in all facets of analog and digital circuit design, in addition to communicating systems and communications systems development. The course concentrates on the technology fundamentals needed to analyse and solve problems about the design and implementation of electronic and communication systems. Graduates will soon be knowledgeable in the fundamental engineering principles, electronic circuits and systems, digital signal processing systems, radio communications, fibre optic and microwave communications, mobile engineering, and cellular and wireless networks.The program focuses on the evolution of knowledge and techniques applicable to professional engineering training and along side a solid theoretical base, includes strong elements of practical problem solvingteam work and job development. Consequently, in addition to having multiple technical and technical skill competencies, graduates will gain strong analytical skills, and have the ability to lead complex projects.The course provides a solid basis in math, and in the principles of engineering and electronics design fundamentals in the initial couple of decades of study, along with relevant computer technology and programming fundamentals. In the last couple of decades of study, advanced topics from the electronics and communication systems technology areas are all covered to prepare students to enter their chosen profession with relevant expertise and skills.The first year of this course comprises a pair of eight units that are shared across all engineering honours classes. This enables students the opportunity to develop a better understanding of the various engineering disciplines on offer and the flexibility, if desired, to switch to some other technology discipline/course without penalty after the first period of study.

The Bachelor of Engineering (Electronics and Communications) at Edith Cowan University offers students a comprehensive education in the design, development, and management of electronic systems and communication technologies. This program is designed to equip graduates with the technical skills and theoretical knowledge required to excel in the rapidly evolving fields of electronics and communications engineering. Throughout the course, students will explore a broad range of topics, including digital and analog circuit design, signal processing, telecommunications, wireless networks, and embedded systems. The curriculum emphasizes both practical laboratory work and theoretical coursework, enabling students to develop hands-on experience alongside critical thinking abilities.

Students will gain proficiency in using industry-standard software and tools for design and analysis, and will have opportunities to work on real-world projects that reflect current industry challenges. The program integrates modules on the principles of electromagnetism, control systems, and computer architecture, providing a well-rounded foundation for engineering problem-solving. In addition, students will learn about emerging technologies such as Internet of Things (IoT), 5G networks, and advanced communication protocols, preparing them for various careers in telecommunications, electronics manufacturing, and research and development.

The program also emphasizes professional skills development, including teamwork, project management, and effective communication, which are vital for thriving in industry environments. Students are encouraged to participate in industry placements, internships, and industry collaborations that enhance their practical understanding and professional networks. Upon graduation, students will be well-prepared to work as electronics and communications engineers, contributing to innovations in technology and infrastructure on a global scale. Whether pursuing a career in telecommunications, electronics design, or research, graduates of this program will have a robust foundation to support their professional growth and career advancement in the dynamic field of electronics and communications engineering.

University admission requirements apply. All applicants are required to possess Mathematics: Strategies ATAR, with equivalents considered, and Physics ATAR or Engineering Studies ATAR, together with equivalents considered. It's desirable that candidates possess Mathematics: Specialist ATAR, with equivalents considered.

Financial aspects of the Engineering (Electronics and Communications) program at Edith Cowan University encompass a variety of funding options and cost considerations designed to support students throughout their academic journey. Tuition fees are a primary component, with international and domestic students often facing different rates. For domestic students, the annual tuition fee is approximately AUD 10,000 to AUD 13,000, depending on the year of study and specific course components. International students typically pay higher tuition fees, roughly AUD 28,000 to AUD 32,000 per year. These fees cover access to university facilities, lectures, laboratories, and academic resources necessary for successful study in Electronics and Communications Engineering.

Students are encouraged to explore scholarships, grants, and financial aid options offered by Edith Cowan University, which can significantly reduce the financial burden. ECU provides several merit-based scholarships for high-achieving students, as well as Diversity and Equity scholarships aimed at supporting students from different backgrounds. In addition to institutional scholarships, external funding options may be available through government schemes, such as the Australian Commonwealth Supported Place (CSP) for eligible domestic students, which substantially subsidizes tuition costs. For international students, there are also opportunity scholarships and sponsorship programs, although these often have specific eligibility criteria.

Living expenses form another substantial component of the total cost of study. In Perth, where ECU is located, students should budget for accommodation, food, transportation, textbooks, and personal expenses. Average living costs are estimated at around AUD 20,000 to AUD 25,000 per year, depending on lifestyle and accommodation choices. On-campus housing options may offer convenience and affordability, but off-campus rentals or shared accommodations are also common.

Students may consider part-time employment opportunities available on or near campus to supplement their income. ECU provides various employment services and career support to assist students in finding suitable part-time work, which can help cover day-to-day expenses. Additionally, students should be aware of potential costs related to health insurance; international students are required to enroll in Overseas Student Health Cover (OSHC), which costs approximately AUD 600 to AUD 900 per year.

Financial planning is an essential part of undertaking engineering studies, and prospective students are advised to develop a comprehensive budget covering tuition, living expenses, insurance, study materials, and personal costs. The university also offers financial counseling services to assist students in understanding their options and managing their finances effectively. External financial support, such as bank loans or sponsorships from employers, may also be considered, especially for postgraduate students or those pursuing research areas aligned with industry needs.

In summary, the financial considerations for studying Engineering (Electronics and Communications) at Edith Cowan University include tuition fees, scholarships and grants, living expenses, insurance costs, and potential earning opportunities through part-time employment. Planning ahead and accessing university resources can help students manage the financial requirements and successfully complete their degree.

The Bachelor of Engineering (Electronics and Communications) at Edith Cowan University is a comprehensive program designed to prepare students for a dynamic career in the fields of electronics, communications, and related technologies. This degree provides a solid foundation in engineering principles, emphasizing the design, development, and application of electronic systems and communication networks. Throughout the course, students engage in rigorous coursework covering fundamental topics such as circuit theory, signals and systems, digital and analog electronics, telecommunications, and networking. The program also includes modules on digital signal processing, microprocessors, embedded systems, and wireless communications, equipping graduates with a broad skill set suitable for multiple industries.

ECU's approach to engineering education emphasizes practical experience and real-world application. Students benefit from state-of-the-art laboratories and industry-standard equipment, which enable hands-on learning and experimentation. The curriculum is structured to include industry placements and internships, providing valuable work experience and industry connections, which enhance employability upon graduation. The program also focuses on developing key competencies in problem-solving, critical thinking, teamwork, and effective communication—skills essential for leadership roles in engineering and technology sectors.

The degree is designed to be completed over three years of full-time study, with options to undertake research projects or specializations within electronics and communications. Graduates of this program are well-equipped to pursue careers in telecommunications companies, electronics manufacturing, defense industries, and technology development firms. Alternatively, they may choose to continue their education through postgraduate study or research.

ECU's Engineering programs are accredited by Engineers Australia, ensuring that the qualification meets industry standards and supports professional registration. The university maintains strong links with industry stakeholders, which helps in keeping the curriculum relevant and providing students with opportunities for mentorship, projects, and employment. The program also encourages participation in competitions, technical clubs, and conferences, fostering a community of aspiring engineers committed to lifelong learning and innovation.

Overall, the Bachelor of Engineering (Electronics and Communications) at Edith Cowan University offers a balanced mixture of theoretical knowledge, practical skills, and industry relevance, making it an excellent choice for students interested in emerging technologies and innovative communication solutions. The degree’s focus on experiential learning and professional development aims to prepare graduates to meet current challenges and contribute effectively to the technological advancements in the electronics and communications sectors worldwide.