Electrical, Electronic Engineering and Data Science

The Bachelor of Electrical, Electronic and Data Science Engineering at Curtin University offers students a comprehensive and innovative education in the rapidly evolving fields of electrical engineering, electronic systems, and data science. This multidisciplinary programme is designed to prepare graduates with the theoretical knowledge and practical skills necessary to address complex engineering challenges and contribute to technological advancements across various industries. Throughout the course, students will gain a solid foundation in core electrical and electronic engineering principles, including circuit design, signal processing, control systems, and power systems, alongside specialized training in data science, such as data analysis, machine learning, and artificial intelligence. The curriculum emphasizes hands-on learning through laboratory sessions, industry projects, and internships, enabling students to apply their knowledge in real-world settings. The programme also fosters critical thinking, problem-solving abilities, and innovative approaches, preparing graduates to adapt to the dynamic technological landscape. Graduates of this degree are equipped to pursue careers in sectors such as telecommunications, renewable energy, automation, manufacturing, and information technology. They may work as electrical or electronic engineers, data scientists, systems analysts, or project managers, among other roles. The programme is accredited by relevant engineering accreditation bodies, ensuring that graduates meet industry standards and are recognized professionally worldwide. With state-of-the-art facilities and strong industry links, Curtin University provides an engaging learning environment that encourages research, collaboration, and lifelong learning. The Bachelor of Electrical, Electronic and Data Science Engineering at Curtin is an excellent choice for students passionate about pushing the boundaries of technology and making a positive impact on society through innovative engineering solutions.

The Bachelor of Electrical, Electronic and Data Science Engineering at Curtin University offers a comprehensive curriculum designed to equip students with the essential knowledge and practical skills necessary for a successful career in rapidly evolving technology fields. This undergraduate program combines foundational principles of electrical and electronic engineering with cutting-edge data science, enabling graduates to develop innovative solutions across a wide range of industries including telecommunications, automation, energy, computing, and information technology.

Throughout the course, students explore core topics such as circuit design, digital systems, control systems, signal processing, and embedded systems. They will gain hands-on experience through laboratory work, project-based learning, and industry placements, fostering practical expertise and teamwork skills. The program emphasizes the importance of analytical thinking, problem-solving, and creativity, preparing students to tackle complex engineering challenges in a data-driven world.

A distinctive feature of this program is the integration of data science, which provides students with skills in data analysis, machine learning, and statistical modeling. This interdisciplinary approach ensures graduates are well-versed in both hardware and software aspects of modern engineering systems. Students will learn how to extract actionable insights from large datasets, develop intelligent systems, and contribute to digital transformation in various sectors.

Curtin’s strong industry connections facilitate internships and work placements, ensuring students gain real-world experience and professional networks. The program also includes opportunities for international study and collaborations, broadening students’ global perspective and enhancing their employability worldwide. Graduates of this program are prepared for careers in areas such as renewable energy, smart devices, IoT systems, cybersecurity, and data analytics.

Advanced coursework enables specialization in areas like renewable energy systems, robotics, communication networks, or artificial intelligence, allowing students to tailor their degree to their interests and career goals. The curriculum is continuously updated to reflect technological advances and industry demands, reinforcing Curtin University’s commitment to delivering relevant and innovative engineering education.

Upon graduation, students will possess the technical expertise, analytical skills, and innovative mindset required to contribute to technological advancements and solve complex engineering problems. The program ultimately prepares graduates not only to enter the workforce but also to be leaders in the ongoing digital and technological transformation across multiple industries worldwide.

Program requirements for Bachelor of Electrical, Electronic Engineering and Data Science at Curtin University include completing a total of 360 credit points over a period of three years of full-time study. Students are expected to engage in foundational subjects such as mathematics, physics, and computer programming in the initial years to build core technical skills. Advanced coursework covers electrical circuit design, embedded systems, digital signal processing, power systems, and telecommunications, developing students' practical and theoretical understanding of electrical and electronic engineering principles. In addition, the program emphasizes data science topics including data analysis, machine learning, and statistics to prepare graduates for the emerging data-driven industries.

Students must undertake a combination of core units, elective units, and industry projects or internships, which provide experiential learning opportunities to apply theoretical knowledge in real-world contexts. The curriculum is designed to meet accreditation standards of engineering bodies, ensuring that graduates are equipped with the necessary competencies for professional engineering practice.

To graduate, students must also meet all university academic policies, including a minimum GPA requirement, and successfully complete a capstone project which integrates knowledge from electrical engineering and data science disciplines. English language proficiency is required for international students, typically demonstrated through TOEFL or IELTS scores, unless exemption criteria are met. Overall, the program aims to produce well-rounded professionals capable of innovative problem solving in electrical, electronic, and data science fields, aligning with industry demands and technological advancements.

The financing of the Electrical, Electronic Engineering and Data Science programs at Curtin University is structured to support both domestic and international students through a range of scholarships, loans, and payment options. Domestic students may have access to government-supported financial aid such as HECS-HELP, which allows eligible students to defer payment of tuition fees until their income reaches a certain threshold. Additionally, Curtin University offers a variety of merit-based and specific scholarships for students pursuing engineering and data science degrees, which can significantly offset the costs of tuition and study materials. These scholarships are often awarded based on academic achievement, leadership qualities, or financial need, and are competitive in nature.

International students are generally required to pay tuition fees upfront or via a student visa arrangement that includes a financial guarantee. Curtin University provides various payment options for international students, including installment plans and joint arrangements with financial institutions. Students are encouraged to carefully plan their finances before commencing studies, taking into account living expenses, insurance costs, and other associated fees. To support student financial planning, the university provides detailed information about estimated total costs, including tuition, accommodation, textbooks, and personal expenses, which help students budget effectively for their entire program duration.

Apart from external sources, students may seek funding through private loans or sponsorships available from government or industry bodies. Curtin University also provides guidance and support services to help students navigate available financial assistance programs and clarify their options. In some cases, students employed part-time during their studies can earn income to support their studies, with the university's flexible timetabling enabling work-study balance. The overall financing strategy at Curtin University aims to make education accessible and affordable, fostering diversity and supporting students’ academic and professional success.

Curtin University's programs in Electrical and Electronic Engineering, along with Data Science, are designed to equip students with comprehensive knowledge and practical skills in their respective fields. The Bachelor of Electrical and Electronic Engineering prepares students for a wide range of industries, including power generation and distribution, telecommunications, electronics, and automation. The curriculum covers fundamental topics such as circuit analysis, digital systems, control systems, embedded systems, signals and systems, and electromagnetics. Practical components involve laboratory work, design projects, and industry placements, fostering hands-on experience and real-world problem-solving abilities. Graduates from this program are well-prepared to undertake roles such as electrical engineers, electronics engineers, control system engineers, and project managers in various sectors.

The Data Science program at Curtin University is tailored to meet the growing demand for data-driven decision-making across industries. It combines core principles of computer science, statistics, and domain-specific knowledge to enable students to analyze complex data sets, develop predictive models, and implement machine learning algorithms. The coursework includes subjects like data management, programming (with languages such as Python and R), statistical analysis, data visualization, and artificial intelligence. Through practical projects and industry collaborations, students gain valuable insights into data mining, large-scale data processing, and ethical considerations in data handling. Graduates of the Data Science program can pursue careers as data analysts, data engineers, machine learning specialists, and business intelligence analysts.

Curtin University emphasizes innovative teaching methods, including collaborative projects, internships, and research opportunities, to prepare graduates for evolving technological landscapes. Both programs benefit from state-of-the-art laboratories, industry partnerships, and a global focus, ensuring students are workplace-ready upon graduation. Employability support, such as career services and networking events, further enhances student opportunities in competitive job markets.

Overall, these programs at Curtin University aim to produce highly skilled professionals capable of contributing to technological advancements and addressing complex challenges in their respective fields. The interdisciplinary approach, combined with practical experience and industry engagement, makes these programs attractive options for students aspiring to careers in electrical engineering, electronics, or data science.