Master of Applied Project Management (Project Systems)
The Master of Applied Project Management (Project Systems) program at ...
North Terrace campus
INTAKE: Jul & Feb
The Bachelor of Engineering (Honours) in Electrical and Electronic Engineering combined with a Bachelor of Mathematical and Computer Sciences at the University of Adelaide provides students with a comprehensive education that integrates principles of electrical engineering with advanced mathematical and computer science concepts. This program is designed to equip graduates with the technical skills and analytical abilities needed to tackle complex challenges in fields such as telecommunications, robotics, power systems, and information technology.
Curriculum: The curriculum of the Bachelor of Engineering (Honours) in Electrical and Electronic Engineering with Bachelor of Mathematical and Computer Sciences at the University of Adelaide is carefully structured to cover core topics in electrical engineering, mathematics, and computer science. Students will undertake a range of courses including electrical circuit analysis, digital signal processing, algorithms, data structures, linear algebra, and calculus. This interdisciplinary approach allows students to develop a strong foundation in both engineering principles and mathematical/computer science fundamentals.
Research Focus: The University of Adelaide is committed to research excellence in electrical engineering, mathematics, and computer sciences. Faculty members are actively engaged in research projects spanning areas such as telecommunications, signal processing, optimization algorithms, machine learning, and cybersecurity. Students have the opportunity to participate in research initiatives, gaining hands-on experience and contributing to innovative solutions that address real-world challenges in engineering and computational sciences.
Industry Engagement: The University of Adelaide maintains strong connections with industry partners in the electrical engineering and technology sectors, providing students with valuable opportunities for industry engagement and practical learning experiences. Through internships, industry placements, and collaborative projects, students can apply their theoretical knowledge in real-world settings, work on industry-relevant projects, and build professional networks within their chosen fields. The university's industry partnerships also facilitate guest lectures, workshops, and industry-sponsored projects, ensuring that students are well-prepared to meet the demands of the industry upon graduation.
Global Perspective: With a diverse student body and a global outlook, the University of Adelaide offers students a global perspective essential for success in today's interconnected world. Students enrolled in the Bachelor of Engineering (Honours) in Electrical and Electronic Engineering with Bachelor of Mathematical and Computer Sciences program have the opportunity to engage with peers from diverse cultural backgrounds, participate in international research collaborations, and undertake study abroad programs. Additionally, the university offers courses and seminars focusing on global issues, cross-cultural communication, and international collaboration, preparing students to thrive in a globalized workforce.
North Terrace campus
IELTS 6.5
AUD 48500
Undergraduate Entry Requirements
Application Fee: AUD $150
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 60% or above in their previous academic qualifications.
English Language Proficiency:
Students must provide:
It's important to note that entry requirements can vary by program and may change over time. Additionally, some programs may have additional requirements, such as interviews, portfolios, or work experience.
The University of Adelaide takes great pride in its promoting diversity and attracting the best and brightest minds from around the globe. To facilitate this, the university offers a wide array of scholarships designed to assist international students in their academic endeavors.
Adelaide Scholarships International (ASI): The Adelaide Scholarships International program is a prestigious scheme that provides full tuition fees, an annual living allowance, and health insurance to high-achieving international postgraduate students. These scholarships are merit-based and are highly competitive, supporting the most outstanding scholars.
Vice-Chancellor's International Excellence Scholarships: This scholarship program is designed to recognize exceptional academic achievements and leadership potential. It provides a tuition fee waiver of up to 30% for undergraduate and postgraduate coursework students. Recipients of these scholarships become ambassadors for the university's commitment to academic excellence.
Adelaide Global Excellence Scholarships: The Adelaide Global Excellence Scholarships target high-performing undergraduate and postgraduate coursework students. They offer a 15% reduction in tuition fees for the duration of the program, making quality education more accessible to international students pursuing excellence.
Higher Degree by Research Scholarships: International students seeking to embark on a research journey at the University of Adelaide can apply for Higher Degree by Research (HDR) Scholarships. These scholarships provide financial support, including tuition fee waivers and living allowances, allowing research students to focus on their academic pursuits.
Sponsored Scholarships and External Funding: The university actively collaborates with governments, organizations, and industry partners to provide sponsored scholarships and external funding opportunities for international students. These partnerships offer additional avenues for students to secure financial support for their studies.
Graduates of the Bachelor of Engineering (Honours) in Electrical and Electronic Engineering combined with a Bachelor of Mathematical and Computer Sciences program from the University of Adelaide possess a diverse skill set that opens doors to a variety of promising career opportunities.
Electrical Engineer: Graduates can pursue careers as electrical engineers, designing, testing, and overseeing the production of electrical systems and components. They can work in industries such as telecommunications, power generation, and manufacturing, developing innovative solutions to meet the growing demand for efficient and sustainable electrical technologies.
Software Developer: Graduates with expertise in mathematical and computer sciences can work as software developers, designing and implementing software applications for various purposes. They can develop algorithms, design user interfaces, and optimize software performance, contributing to the development of cutting-edge software solutions in industries such as telecommunications, robotics, and artificial intelligence.
Data Scientist: Graduates can work as data scientists, analyzing large datasets to extract insights and inform decision-making processes. They can use mathematical and statistical techniques, as well as machine learning algorithms, to identify patterns, trends, and correlations in data, helping organizations make data-driven decisions and solve complex problems in diverse fields such as finance, healthcare, and engineering.
Systems Engineer: Graduates may pursue careers as systems engineers, designing and integrating complex systems that involve both hardware and software components. They can work on projects such as embedded systems, control systems, and networked systems, ensuring that all components work together seamlessly to achieve desired functionality and performance.
Network Engineer: Graduates can work as network engineers, designing, implementing, and managing computer networks for organizations. They can configure routers, switches, and other network devices, optimize network performance, and troubleshoot network issues, supporting the efficient and secure transmission of data in industries such as telecommunications, finance, and healthcare.
Machine Learning Engineer: Graduates with expertise in mathematical and computer sciences can work as machine learning engineers, developing and implementing machine learning algorithms and models. They can work on projects such as natural language processing, image recognition, and predictive analytics, leveraging machine learning techniques to solve complex problems and automate decision-making processes.
Quantitative Analyst: Graduates can work as quantitative analysts, using mathematical and statistical models to analyze financial markets and investment strategies. They can develop quantitative models, conduct risk assessments, and optimize investment portfolios, helping financial institutions make informed decisions and manage investment risks effectively.
Robotics Engineer: Graduates may pursue careers as robotics engineers, designing and building robotic systems for applications such as automation, manufacturing, and healthcare. They can work on projects involving robot design, sensor integration, and motion planning, contributing to the development of advanced robotics technologies that improve productivity and quality of life.
Cybersecurity Analyst: Graduates can work as cybersecurity analysts, protecting organizations from cyber threats and security breaches. They can monitor networks for suspicious activities, conduct security assessments, and implement security measures to safeguard sensitive information and infrastructure from cyber attacks.
Entrepreneurship: Armed with a combination of engineering and mathematical/computer science skills, graduates may choose to start their own technology startups, consulting firms, or research ventures. They can develop innovative products, services, or solutions that address emerging challenges and opportunities in the technology industry, leveraging their interdisciplinary expertise to create value and drive innovation.