Master of Arts (Thesis)
The University of Canterbury (UC) in New Zealand is renowned for its academic excellenc...
Christchurch
INTAKE: Jul & Feb
The Master of Engineering in Electrical and Electronic Engineering (Research) program at the University of Canterbury is tailored for students seeking advanced knowledge and expertise in this dynamic field. It focuses on in-depth theoretical understanding and practical research applications.
Curriculum: The curriculum encompasses advanced coursework covering a wide spectrum of topics including advanced control systems, signal processing, power electronics, telecommunications, and innovative technologies. Students delve into specialized areas and are involved in both theoretical and practical research-oriented projects.
Research Focus: This program emphasizes research-driven learning, encouraging students to engage in cutting-edge research projects. Research areas include but are not limited to renewable energy systems, wireless communication, machine learning in electrical engineering, and advanced electronic materials.
Industry Engagement: The University of Canterbury actively collaborates with industry partners and research institutions, providing students with opportunities for internships, industry projects, and exposure to the latest technological advancements. This engagement ensures practical experience and industry-relevant skill development.
Global Perspective: The Master of Engineering in Electrical and Electronic Engineering (Research) program integrates a global perspective by addressing international standards, emerging technologies, and global challenges in the field. Students explore global case studies and consider diverse perspectives in their research projects.
Christchurch
IELTS 6.5
NZD 66000
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs usually need a bachelor's degree or an equivalent qualification from a recognized institution. The entry requirement may specify a minimum score of 50% or higher in the previous academic degree.
English Language Proficiency:
Students must provide:
Work experience: Some postgraduate courses may require relevant work experience in the field.
It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.
The University of Canterbury is dedicated to providing support to international students through various scholarship programs designed to recognize academic excellence, diversity, and specific areas of achievement. These scholarships aim to ease the financial burden and promote educational opportunities for talented individuals from around the world.
UC International First Year Scholarships: Geared towards high-achieving international students beginning their first year of study at UC. These scholarships acknowledge exceptional academic performance and assist students in their initial year of education at the university.
UC Master's Scholarships: For high-achieving international students pursuing Master's degrees at UC. These scholarships provide financial support to assist students in their postgraduate studies and promote research excellence.
UC Doctoral Scholarships: Aimed at international students undertaking Ph.D. studies at UC. These scholarships offer financial assistance and opportunities for research excellence in various fields of study.
Specific Field Scholarships: Additionally, UC offers specialized scholarships catering to students entering specific fields or disciplines. These scholarships encourage innovation and excellence in targeted areas of study.
Graduates from the Master of Engineering in Electrical and Electronic Engineering (Research) program at the University of Canterbury possess specialized skills and knowledge, opening up various career pathways in the field of electrical and electronic engineering.
Research and Development Engineer: Graduates can work as research and development engineers, contributing to the design and innovation of new technologies in industries such as telecommunications, semiconductor manufacturing, or renewable energy.
Electrical Design Engineer: Graduates can pursue roles as electrical design engineers, involved in designing electrical systems for various applications including power distribution, control systems, or electronic devices.
Signal Processing Engineer: With expertise in signal processing, graduates can work in fields such as telecommunications, audio processing, image processing, or biomedical engineering, developing algorithms and technologies for signal analysis.
Power Systems Engineer: Graduates can specialize in power systems engineering, working on the design, operation, and optimization of electrical power systems, including renewable energy integration and grid management.
Telecommunications Engineer: Graduates can work as telecommunications engineers, focusing on the design and implementation of communication networks, wireless systems, or internet infrastructure.
Electronics Hardware Engineer: Graduates can pursue roles as electronics hardware engineers, involved in the design and development of electronic components and systems for various industries such as consumer electronics or automotive sectors.
Control Systems Engineer: Graduates can specialize in control systems engineering, working on automation, robotics, or mechatronics, developing control algorithms and systems for industrial applications.