Engineering (Mechatronics)

The Bachelor of Engineering (Mechatronics) at Edith Cowan University is a comprehensive undergraduate program designed to equip students with the essential skills and knowledge required for a dynamic career in robotics, automation, and intelligent systems. This innovative degree combines principles from mechanical engineering, electrical engineering, and computer science to prepare graduates for the multidisciplinary nature of modern engineering challenges. Throughout the program, students will engage in hands-on projects, laboratory work, and industry-based internships to develop practical skills and real-world experience. The curriculum covers core subjects such as robotics, embedded systems, control systems, sensors and instrumentation, computer programming, and mechanical design. Emphasis is placed on problem-solving, innovative thinking, and the application of engineering principles to design and manufacture intelligent systems that can operate autonomously or semi-autonomously. Students will have access to state-of-the-art laboratories and facilities, including advanced robotics labs and manufacturing workshops, fostering an interactive learning environment. The program also aims to develop graduates who are able to adapt to technological advancements and are prepared for lifelong learning and professional development. Upon graduation, students will be well-equipped to pursue careers in sectors such as manufacturing, aerospace, automotive engineering, biomedical devices, and research and development organizations. Additionally, the program aligns with industry standards and offers pathways to further education, including postgraduate coursework and research opportunities. Graduates of the Bachelor of Engineering (Mechatronics) are sought after for their multidisciplinary expertise and ability to innovate, making them valuable contributors to the evolving engineering landscape.

The Bachelor of Engineering (Mechatronics) at Edith Cowan University offers a comprehensive and innovative curriculum designed to prepare students for the rapidly evolving field of mechatronic engineering. This program integrates principles from mechanical engineering, electrical engineering, computer science, and control engineering to develop versatile engineers capable of designing, developing, and maintaining complex automated systems. Throughout the course, students will gain hands-on experience with industry-standard tools and technologies, enabling them to solve real-world engineering problems effectively.

The program begins with foundational courses in mathematics, physics, and engineering principles, establishing a solid base for advanced studies. As students progress, they explore key areas such as electronics, embedded systems, robotics, automation, sensors and actuators, and software development. Specialised subjects focus on the design and integration of mechanical and electrical components, fostering innovative solutions in fields like manufacturing, transportation, healthcare, and consumer electronics. The curriculum emphasizes practical skills, with laboratory work, projects, and industry placements providing valuable experience in applying theoretical knowledge.

Throughout their studies, students are encouraged to develop their problem-solving, teamwork, and communication skills, essential for professional success. The program also includes opportunities for collaboration with industry partners, allowing students to engage with real-world challenges and current technological trends. Graduates of the Bachelor of Engineering (Mechatronics) are well-equipped for careers in automation engineering, robotics, control systems, product development, and systems integration across a variety of sectors. They are also prepared for postgraduate study and research in mechatronics and related disciplines. By combining theoretical knowledge with practical application, this program ensures graduates are ready to contribute effectively to technological innovation and industry advancements.

University admission requirements apply. All applicants are required to have Mathematics: Procedures ATAR, with equivalents considered, and Physics ATAR or Engineering Studies ATAR, together using equivalents considered. It is desirable that all applicants have Mathematics: Specialist ATAR, with equivalents considered.

The Bachelor of Engineering (Mechatronic Engineering) program at Edith Cowan University offers a variety of financing options to support students throughout their studies. Domestic students can access several scholarships, including the ECU Excellence Scholarship, which rewards high academic achievement, and the ECU Equity Scholarship, designed to assist students from auspicing backgrounds or those experiencing financial hardship. Additionally, students may be eligible for government-funded financial support such as FEE-HELP, a loan scheme that helps eligible students pay their tuition fees upfront and defer repayment until their income reaches a specified threshold. FEE-HELP is available for domestic students enrolled in this program, providing financial flexibility and reducing the immediate cost burden.

International students, on the other hand, are required to pay tuition fees upfront or seek her own funding sources. They may explore scholarships designed specifically for international students, including the ECU International Scholarship, which offers partial fee reductions based on academic merit. Other international students employ personal savings, family support, or education-specific loans from financial institutions in their home countries to finance their studies.

In addition to scholarships and loans, students often consider part-time work opportunities, either on-campus or nearby, to supplement their income during their studies. ECU's flexible scheduling and support services facilitate balancing work and study commitments. The university also provides financial counseling and support services to assist students in planning their finances and maximizing available funding options.

The cost of the Bachelor of Engineering (Mechatronic Engineering) program varies depending on the student’s residency status and chosen pathway. Domestic students benefit from fee assistance options such as FEE-HELP, which significantly alleviates the financial burden by allowing students to defer payment until graduation. International students pay full tuition fees, which are outlined annually by ECU. Overall, the university's broad spectrum of financial aid options aims to make engineering education accessible and affordable for a diverse student population, ensuring that students from various economic backgrounds can pursue their academic and professional goals without undue financial stress.

The Bachelor of Engineering (Mechatronics) at Edith Cowan University is a comprehensive undergraduate program designed to prepare students for careers in the rapidly evolving field of mechatronics engineering. This multidisciplinary program integrates mechanical, electronic, computer, and software engineering principles to equip graduates with the skills necessary to design, develop, and maintain intelligent systems and automated solutions across various industries. The curriculum encompasses a broad range of subjects, including robotics, control systems, embedded systems, electrical circuits, mechanical design, automation, and software development. Students have opportunities to engage in practical projects, laboratory work, and industry placements that enhance their problem-solving abilities and technical expertise.

The program emphasizes contemporary industry practices and the integration of emerging technologies such as sensors, actuators, artificial intelligence, and machine learning into engineering solutions. Students learn to work effectively within multidisciplinary teams, communicate technical information clearly, and apply ethical and sustainable principles in their work. The duration of the Bachelor of Engineering (Mechatronics) is typically four years of full-time study, with options for part-time study in some cases. Graduates are well-prepared for employment in sectors such as manufacturing, automation, robotics, aerospace, automotive industries, and research and development. They may find roles as automation engineers, robotics engineers, control systems engineers, or technical specialists.

Edith Cowan University also offers strong industry connections and research opportunities, fostering innovation and practical skill development. The program aligns with ECU’s commitment to producing industry-ready graduates by providing real-world experience through work-integrated learning and collaboration with industry partners. Graduates of this program are positioned to contribute significantly to technological advancements and innovation in their respective fields, addressing modern engineering challenges with a solid foundation of technical knowledge, creativity, and professional skills.