MSc in Electrical Engineering - Smart Grids
The MSc in Electrical Engineering - Smart Grids at Tampere Uni...
Master of Science Technology in Automation Engineering
Hervanta
INTAKE: September
Program Overview
The Master of Science (Technology) in Automation Engineering at Tampere University, Finland, is an advanced degree program designed for individuals who aspire to specialize in automation, control systems, and industrial engineering. This program provides students with comprehensive knowledge and skills in automation technologies, robotics, and intelligent systems, all of which are crucial in today’s rapidly evolving technological landscape. Automation engineering is at the forefront of industrial transformation, and the program at Tampere University is tailored to equip students with expertise in designing, implementing, and optimizing automation systems for various industries, including manufacturing, energy, and transportation. The curriculum emphasizes a blend of theoretical foundations and practical applications, preparing graduates to tackle real-world challenges in automation and control systems engineering.
Curriculum: The curriculum of the Master of Science in Automation Engineering combines core courses with specialization options that cover key aspects of automation, control theory, and system design. Students will study topics such as process automation, robotics, embedded systems, artificial intelligence, machine learning, and industrial Internet of Things (IoT). The program also includes courses focused on control systems, signal processing, and system dynamics, allowing students to develop a strong foundation in automation and control technologies. In addition, the curriculum incorporates elective courses that enable students to explore cutting-edge fields such as autonomous systems, smart grids, and renewable energy technologies. The final stages of the program involve a research project or thesis, where students apply their acquired knowledge to solve complex problems in the field of automation engineering, contributing to technological innovations and advancements.
Research Focus: The research focus of the Master of Science (Technology) in Automation Engineering at Tampere University is centered on the development and application of automation systems and control technologies across various industries. Research themes include intelligent control systems, robotics, and process optimization in manufacturing and energy systems. The program also focuses on autonomous systems, human-robot interaction, and industrial IoT, reflecting the growing trends in the automation sector. Faculty members conduct cutting-edge research in areas such as intelligent systems, advanced robotics, machine learning applications in automation, and control theory, fostering an environment where students can participate in impactful research projects. Research at Tampere University is highly interdisciplinary, bridging the gap between engineering, computer science, and data analytics, with the goal of advancing automation technologies for sustainable industrial practices and innovation.
Industry Engagement: Tampere University emphasizes industry engagement through collaboration with leading companies and institutions in the field of automation and engineering. Students benefit from the university’s strong ties with the industry, participating in internships, real-world projects, and networking events. These industry connections help students gain practical experience and exposure to the latest technologies and trends in automation. Tampere University also hosts seminars, workshops, and conferences where students can engage with professionals and researchers from global companies, providing opportunities to stay up-to-date with industry developments. Collaborative projects with industry partners allow students to work on real-world challenges and gain insights into the practical applications of automation engineering in various sectors, including manufacturing, energy, and robotics.
Global Perspective: The global perspective of the Master of Science (Technology) in Automation Engineering is reflected in its international curriculum, research collaborations, and partnerships with global companies and research institutions. Students at Tampere University have the opportunity to work on international projects, participate in global research initiatives, and gain exposure to global best practices in automation engineering. The program prepares graduates to work in international settings, equipping them with the skills needed to address global challenges in automation and control systems. By focusing on advanced automation technologies and their applications in industries worldwide, students are trained to think globally and contribute to technological advancements that address societal needs, such as sustainable energy systems, smart cities, and the future of work in automation.
Location
Hervanta
Score
Tuition Fee
€ 12000
Postgraduate Entry Requirements
Application Fee: €100
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 60% or above in their bachelor's degree.
English Language Proficiency:
- English language test waiver is applicable if the Bachelor's, Master's, Licentiate, or Doctoral degree is in English language.
Tampere University in Finland offers various scholarship opportunities to help international students finance their education and living costs. The university is supporting talented and motivated students from around the world, ensuring that financial constraints do not prevent them from pursuing higher education in Finland.
Tampere University Scholarships for Non-EU/EEA Students: Tampere University offers scholarships to international students from non-EU/EEA countries applying to Master's degree programs. These scholarships are designed to cover tuition fees and help students with the cost of living in Finland. The scholarship covers either partial or full tuition fees, depending on the student's academic merit and the specific program applied to.
Tampere University Scholarship for Excellence: The Tampere University Scholarship for Excellence is awarded to exceptional students based on their academic achievements. This scholarship aims to recognize the outstanding academic performance of students during their studies and provide them with additional financial support. The scholarship amount varies depending on the level of achievement, and students who maintain excellent academic performance may be eligible for renewal during their studies.
Finland Scholarship: The Finland Scholarship is a government-funded initiative aimed at attracting top talent to Finland from abroad. Tampere University participates in this scholarship program, which is available to non-EU/EEA students who apply for Master's degree programs in Finland. The Finland Scholarship covers tuition fees and provides an additional grant to help with living expenses during the first year of study. This scholarship is awarded based on academic merit and is designed to make studying in Finland more accessible to international students.
Scholarships for Exchange Students: Tampere University also offers limited scholarships for exchange students from partner universities. These scholarships help cover travel costs, accommodation, and other living expenses during the exchange period. Exchange students should check with their home university’s exchange program office to inquire about the available scholarship opportunities.
External Scholarships and Funding: In addition to university-specific scholarships, international students can explore external scholarship opportunities provided by the Finnish government, private organizations, and other funding bodies. These scholarships may be available for both undergraduate and graduate students. International students are encouraged to research and apply for other scholarships to support their studies in Finland.
Graduates of the Master of Science (Technology) in Automation Engineering program at Tampere University, Finland, have access to a broad spectrum of career opportunities across industries that rely heavily on automation, robotics, and control systems. With the growing demand for automation and digital transformation in various sectors, graduates are well-equipped to take on key roles in both the public and private sectors.
Automation Engineer: Automation engineers design, develop, and optimize automated systems for various industries, including manufacturing, energy, transportation, and robotics. They work on automating processes to increase efficiency, reduce costs, and ensure the smooth functioning of complex systems.
Control Systems Engineer: Control systems engineers specialize in designing and managing control systems that regulate and monitor industrial processes. They apply their expertise in sensors, actuators, and feedback systems to ensure systems operate optimally and safely.
Robotics Engineer: Robotics engineers develop and maintain robotic systems used in manufacturing, healthcare, and other industries. These professionals work on designing robots, programming them, and integrating them into automation systems for various applications, such as assembly lines, medical surgeries, or autonomous vehicles.
Process Automation Engineer: Process automation engineers focus on automating industrial processes in sectors such as chemical, petrochemical, and food processing. They design control systems that help optimize the production process, improve product quality, and reduce downtime.
Embedded Systems Engineer: Graduates specializing in embedded systems work on the design and development of software and hardware that control embedded devices in automation systems. They work on programming microcontrollers, sensors, and other hardware components used in automation applications.
Industrial IoT Specialist: As industries increasingly adopt Internet of Things (IoT) technologies, industrial IoT specialists focus on integrating smart sensors, devices, and systems into industrial environments. They ensure seamless communication between devices, enabling real-time monitoring, data analysis, and process optimization.
Energy Systems Engineer: Energy systems engineers focus on optimizing energy production and consumption within industrial automation systems. They work on implementing automation solutions that improve energy efficiency and integrate renewable energy sources, such as wind or solar, into existing systems.
Machine Learning Engineer: Graduates interested in artificial intelligence and machine learning can work as machine learning engineers, applying these technologies to automate tasks and optimize industrial operations. They use data to train algorithms and improve the performance of automation systems in various sectors, including predictive maintenance and fault detection.
Manufacturing Systems Engineer: Manufacturing systems engineers focus on optimizing production lines and manufacturing processes using automation and robotics. They design systems that improve production efficiency, reduce costs, and increase product quality through the application of automation technologies.
Automation Consultant: Automation consultants advise companies on the implementation of automation technologies to streamline operations and improve productivity. They assess existing systems, recommend suitable automation solutions, and support the integration and commissioning of new systems.
Project Manager in Automation: Project managers in automation lead teams and oversee the planning, implementation, and execution of automation projects. They ensure projects are completed on time, within budget, and meet all technical specifications and quality standards.
Automation Systems Architect: Systems architects in automation design the overall framework and structure of automation systems. They ensure that hardware, software, and communication networks work seamlessly together to meet the requirements of the automation process.
Quality Control Engineer: Quality control engineers work to ensure that automated systems are functioning properly and that products meet quality standards. They test systems, identify potential issues, and recommend solutions to ensure optimal system performance and product quality.
R&D Engineer: Research and development engineers in automation work on cutting-edge technologies in automation, control systems, and robotics. They innovate and develop new technologies or improve existing ones, contributing to the advancement of the automation industry.
Software Engineer in Automation: Software engineers focus on developing and programming software for automation systems. They create applications that control processes, robots, and devices in automated environments, ensuring that software systems are efficient and reliable.
Smart Manufacturing Engineer: Smart manufacturing engineers specialize in integrating smart technologies into manufacturing systems. They implement automation and IoT solutions that help factories become more intelligent, improving production efficiency and flexibility.
Cybersecurity Specialist in Automation: With the increasing reliance on digital systems, cybersecurity specialists in automation work to protect automated systems from cyber threats. They design and implement security measures to safeguard critical industrial automation systems and the data they process.
Consultant in Digital Transformation: Digital transformation consultants help businesses integrate new automation technologies into their operations. They provide guidance on implementing digital strategies, automating processes, and adopting Industry 4.0 technologies to stay competitive in a rapidly changing market.
