Automation and Electrical Engineering, Master of Science (Technology)
Study Programme Details
About this Study Course
Elevate your expertise with a Master’s Degree in Automation and Electrical Engineering at Aalto University – a preeminent institution renowned for its international acclaim and multidisciplinary approach in the Nordics and Europe.
Overview
Embark on a transformative academic journey within the Master’s Programme in Automation and Electrical Engineering. Immerse yourself in a dynamic international environment where the curriculum, designed in collaboration with industry leaders, positions graduates at the intersection of hardware and software. Explore prevalent and emerging topics in energy, robotics, and embedded electronic systems, emphasizing applicable technologies such as Autonomous Systems, Health Technology, Smart Grids, and Renewable Energy Solutions.
Admission Requirements
- The bachelor’s degree must be equivalent to 180 ECTS credits or three years of full-time study.
- The degree must give eligibility to apply for master’s degree studies at university in the awarding country.
IELTS Academic: overall score 6.5, and writing score 5.5. - TOEFL iBT (Internet-based Test): 92, and 22 for Writing
- Pearson Test of English Academic (PTE A): 62, and 54 for Writing
- renewable energies and sustainability, e.g. energy efficiency and power conversion systems
- distributed and networked power systems, e.g. smart grid, smart living environment, safety and security in distributed/networked systems
- sensing and perceiving the environment, e.g. microsensors, machine perception
- transition from automation to autonomy
- personal healthcare, wellness and medical instrumentation
Aalto University’s tuition fee for master’s programmes taught in English is 15 000 euros per academic year.
Future Career Outcomes
As a graduate, you emerge equipped to lead in the ever-evolving landscape of Automation and Electrical Engineering. Your expertise spans hardware and software realms, enabling you to pioneer advancements in energy, robotics, and embedded systems, with potential roles in Autonomous Systems, Health Technology, and Sustainable Energy.