2-year master's programme provides thorough knowledge and skills in the areas of laboratory and technological measurements, testing and chemical analysis methods, quality systems, metrology and related economic and legal aspects. Studies are carried out in the “Physicum” and “Chemicum” buildings in Tartu – among the top research and education facilities in Northern Europe.
Master's programme in Applied Physics is aimed for those who are interested in innovative engineering in design and application companies. Programme provides interdisciplinary education covering engineering, physics, and math in an effort to bridge the gap between theoretical science and practical engineering. Studies cover a wide spectrum of topics: nanotechnology, quantum topics, solar cells, experimental solid state physics and econophysics. Additionally it is possible to opt for more theoretical projects, such as computer simulation of physical systems, modeling of turbulence and complex systems (e.g. biological or social networks).
The graduates of the programme have skills applicable in a broad sphere, such as engineers or project managers in high-tech startup companies or well-established companies in the field of energy, nanotechnology, data mining, measuring laboratories etc.
This programme aims to provide students with knowledge and skills in the key aspects of communication, semiconductor, medical and embedded electronics. Students can specialise in either communications electronics (embedded systems, networking, etc.) or cognitive electronics (sensors, sensor networks, medical diagnostics, measurement systems). The programme is supported by the ELIKO Competence Centre and the CEBE Centre of Excellence.
The students also have a chance to take part in significant research projects (e.g. implantable devices for cardiac monitors, sensors and monitors for transplanted organs and tissues, material quality measurement systems, smart home and city systems).
The research and study areas are situated in modern facilities and are equipped with modern computers, software, measurement equipment and tools that provide excellent opportunities for the students to either study or conduct research. All students of the IT-field are offered practical placement and job opportunities in Estonia or abroad already during the studies which provides professional experience in the field.
The programme provides the specialist knowledge and skills needed for a career leading to high-end technical or technology roles in communicative electronics. Possible future work positions include: designer of computer or automation systems and components, designer of electronics, monitoring and communication systems and their components, senior engineer, hardware developer, project manager, software engineer, etc.
An incomplete list includes the majority of famous worldwide electronics and communication engineering companies, particularly: Stoneridge Estonia, Ericsson Estonia, ABB, AS Siemens, Intel Europe, Texas Instruments, Liewenthal Electronics, Incap Electronics, UTU Elektrotehnika AS, Skype Technologies OÜ, Eesti Energia, LDI Innovation OÜ, Domestic and international hospitals like PERH, ITK, Tartu University clinicum, etc.
The Master’s programme focuses on designing and using complex modern computer systems. As part of the programme, students cover such subjects as innovation and entrepreneurship, hardware systems design and modelling, computer architecture and programming, software project management and databases, to name but a few.
Students can choose between the following two specialisations:
The Department of Computer Engineering received the IBM Faculty Award 2011 and has an excellent partnership with experts from the IBM Development Centre in Germany and the IBM research laboratory in Israel.
The Computer and Systems Engineering Master's programme focuses on the education of designing and using modern complex computer systems. Nowadays computer systems are used more or less everywhere, they are extremely diverse and most of them are "invisible" to users. Such systems include not only traditional PC-s and sophisticated supercomputers, but also computer systems "embedded" into cars and mobile phones, for instance. Most of these computers are interconnected via various wired and wireless networks and do not work in isolation. These embedded systems can be either stand-alone items or an integral part of a larger system and represent the combination of software and hardware designed to perform specific functions.
When studying the Computer and Engineering Systems programme, students are exposed to systems design and modelling, computer architectures and programming, to name few of the topics. Exposure to those topics will position students well for jobs at small, medium and large companies. Their jobs will involve defining, designing and using embedded computer system in areas such as automotive electronics, consumer devices, telecommunications, etc.
The Computer and Systems Engineering programme is supervised by two departments of TUT - Department of Computer Engineering (DCE) and Department of Computer Control (DCC). Students can choose between two of the following specialisations:
Faculty of Information Technology (founded in 1965) trains specialists in the main fields of information and communications technology (ICT) at bachelor, master and doctoral level. High-quality knowledge based teaching and training is based on international research and development activities, and tight cooperation with ICT industry.
There are more than 2100 students annually learning in the faculty, which employs 150 faculty members, lecturers, researchers and engineers.
Graduates find employment as specialists in the design, realisation, application and administration of computerised equipment and systems. Career opportunities are varied: computer and software companies; banks; diagnostic systems in manufacturing, service, medicine; "smart" houses and manufacturing systems; industrial automation; management control and monitoring systems in air, water and ground based transport, etc. Master’s degree holders interested in high-level research work and university staff positions have the opportunity to continue their studies in the PhD programme.
Career opportunities and potential jobs: designer of computer and automated control systems and the components thereof, project manager, software developer, department manager, management board member, and management board chairman.
The international Master's programme with three main specialties - Cyber Security, Digital Forensics and Cryptography - provides students with core skills in wide aspects of the security of information systems and specialized skills in the chosen specialization. Students get a unique chance to study under high-level cyber security practitioners from Estonian banks, telecoms, law enforcement, CERT and the NATO Cooperative Cyber Defence Centre of Excellence.
The programme is taught jointly by the two largest public universities in Estonia. The Cyber Security and Digital Forensics studies are concentrated in Tallinn, while Cryptography specialization is concentrated in Tartu. Upon successful completion of the programme students will receive a joint degree signed by both universities - Tallinn University of Technology and University of Tartu.
The public focus on the field of cyber security is growing around the world. Estonia is well known for its eagerness to put innovative IT solutions into everyday use. It is a pioneer in electronic identities and electronic voting and enthusiastically adopts mobile technology, online banking and electronic government services. However, with so many e-solutions and such extensive use of the internet, attention also needs to be turned to the security issue.
Digital forensics is a branch of forensic science encompassing the recovery and investigation of material found in digital devices, often in relation to computer crime. The area is becoming critical for both data security and law enforcement and is involved in a complicated interplay between surveillance and counter-surveillance issues.
An emphasis on product and process technology alone is seen as insufficient for business success. Technological competence needs to be combined with a deep understanding of users, the social and cultural context of use, as well as the utilisation of design in the creation of meaningful and sustainable solutions.
The Design and Engineering multi-disciplinary programme is created with the purpose of combining the rigor of technical development and the honing of engineering competence with the creative, inspirational and communicative power of design. Besides the two core study areas of design and engineering, students will get a firm understanding of the contemporary entrepreneurial world.
With a business and entrepreneurship mind-set, the programme is founded upon the synergies and benefits gained through the integration of Art, Design and Science.
Master's Programme in Design and Engineering has been established by two Estonian leading Educational Centers of Excellence: Tallinn University of Technology and Estonian Academy of Arts, in order to meet current demands in cross-disciplinary professionals.
The aim of the curriculum is to combine the basic competences of engineers and designers to develop the framework for a strong interdisciplinary cooperation. During two years of joint studies a firm base in design and engineering theories will be built and a whole set of professional skills of both disciplines will be developed. Besides the two core study areas of design and engineering students will get a firm understanding of contemporary entrepreneurial world. The core of the course is formed around development projects run in multidisciplinary teams and industry partners.
The aim of the programme is following:
Graduates of this Master’s programme will be able to work in a wide scope of creative integrated development teams both as development professionals as well as managers. They will also acquire entrepreneurial skills being able to create technologically demanding product systems and bring them to the market in order to meet the demand of unsatisfied users.
Profiles of the graduates:
The graduates are competent to continue their studies for PhD.
Estonia’s e-government and the country’s other innovative e-solutions have grown into one of Europe’s success stories of the last decade. Tallinn Tech has taken a leap into the future of e-Governance education. Largely focusing on IT solutions at government level, its interoperability between different faculties in the University is giving fundamental background also in other aspects (law, public management and economics) of government. The program is especially important due to the reason that it is unique in Estonia and in Europe and the demand for the specialist with broad knowledge on e-governance is increasing tremendously.
The Master’s programme in e-Governance Technologies and Services is giving students broad knowledge about the makings of a modern state – the transition into e-governance, its management and development. Studies include a wider overview of administrative and legal aspects of e-governance.
The curriculum will help to prepare managers and specialists responsible for the development of e-Governance, who are able to comprehend the business processes and the management of public administration; and are familiar with the information systems and software development.
Giving student’s a broad knowledge about the transition into e-governance, its management and development, helps graduates to work as a public sector high level officials whilst leading eGov projects by having also a wider overview of administrative and legal aspects of e-governance.
Master’s degree holders have the opportunity to continue their studies in the PhD programme.
Arvo Ott, Executive Director of the e-Governance Academy:
“e-Governance is not only technology but also innovation, policy, legal and fiscal frameworks, management and economy. The curriculum of the programme brings together science, practices and knowledge in these fields and trains very internationally needed specialists of the e-Governance.”
The e-Governance Academy
- is a non-governmental organization, which shares Estonia's expertise and experience on state level and has trained and consulted governmental officials in more than 40 countries around the world, including countries like China, India, Japan, Canada, Cuba, Georgia, United Kingdom and many more.
Industrial production has an enormous impact on the environment, and society’s awareness of such effects is constantly growing. The course offers an integrated approach towards current and long term strategic environmental issues, focusing on technologies and concepts in environmental planning and management for the sustainable development of industrial production systems. This programme provides interdisciplinary solutions in a market-based economy through the integrated management of water, wastewater, solid wastes, and air pollutants.
Industrial production has an enormous impact on evironment and societies awareness of such effects is constantly growing. New knowledge in this field is needed more than ever now. Master of Environmental Management and Cleaner Production programme offers an integrated approach toward current and long-term environmental issues, focusing on technologies and concepts in environmental planning and management.
This programme is suitable for graduates with qualifications in different engineering fields, such as chemical engineering, civil engineering, environmental engineering, material technology, mechanical engineering and others. The curriculum offers an integrated approach toward current and long-term environmental issues, focusing on technologies and concepts in environmental planning and management for the sustainable development of industrial production.
The goal of the programme is to educate managers who not only understand all aspects of the environmental industry, but who are also skilled in critical thinking and problem solving, and are able to plan, implement and control all facets of environmental management.
Career opportunities exist in managerial and policy positions in companies, consulting firms and government as an environmental manager, engineer, auditor or policy analyst. The graduates work in industrial and trade enterprises, municipalities, environmental agencies as environmental engineers. Students also have an option to continue their PhD studies.
The 2-year master’s programme in Geoinformatics for Urbanised Society prepares students to become highly qualified specialists to analyse spatial data and develop decision support systems for the public, private, and non-governmental sectors. Special emphasis of the programme is put on the development of practical skills of students.
Fulfilment of the master’s programme enables employment in public, private, and non-governmental sector as spatial data manager, spatial analyst, or GIS consultant for planning and regional policy. There are numerous further employment options in local and regional development and policy.
Health Care Technology (HCT) is a unique Master’s programme in Europe and Estonia is the first country to start teaching Health Care Technology in such an all-inclusive form. HCT focuses on combination of academic and practical skills and the lecturers are mostly from the industry, bringing the latest knowledge and experience to the students.
HCT Master’s program has two specialities: 1) Health care technology (HCT) and 2) Occupational Health Science and Ergonomics (OHSE).
HCT speciality is for people who are interested in healthcare management combined with information technology and innovation. Not just creating new eHealth applications, but making sure it is humanly, financially, economically viable.
Occupational Health and Ergonomics (OHSE) speciality is for people who are interested in health and safety management, ergonomics and designing innovative workplaces, promoting work life quality, productivity and employees’ wellbeing.
An HCT alumni works in healthcare organisation managements, in IT development companies that develop healthcare applications and systems, laboratory management, rehabilitation management and as academics in the university. A OHSE alumni works in variety of organisations, private and state, in management of health and safety, working life quality, ergonomics, occupational health services and as academics in the university.
The idea to create Health Care Technology programme was born because of high demand on the market for Health Care Specialists. After discussions and brainstorming amongst The Institute of Clinical Medicine and industry partners, the Master's programme was created. For the HCT major to be more effective, the students will attend apprenticeship in the following medical or health care companies:
OHSE major students will attend apprenticeship in different manufacturing companies, state organisations and occupational health services.
The aim of Health Care Technology major is to prepare e-Health technology specialists who have acquired the know-how for working in different health care sector organisations and have the knowledge about the client and patient centred approach and manner of behaviour characteristics of the modern health care system.
Tallinn University of Technology is the first university to start teaching Health Care Technology in this all-inclusive form. Theory lectures are combined with practical studies in our medical and health care industry partner organisations, teaching students how to use their freshly learnt skills and how to put them to work.
Health Care Technology programme professors are from Estonia as well as from Europe and North America, covering Estonian and international experience in different levels and angles of health care. Estonia is well known for its technological inventions in e-Health and their successful implementation, making it a lucrative country to study and work in technological fields.
School of Information Technologies (former Faculty of Information Technology) was founded in 1965. The faculty trains specialists in the main fields of information and communications technology (ICT) at bachelor, master and doctoral level. High-quality knowledge based teaching and training is based on international research and development activities, and tight cooperation with ICT industry. There are more than 2100 students annually learning in the faculty, which employs 150 faculty members, lecturers, researchers and engineers.
This programme has been developed in cooperation with University-Consortium in Science and Technology, BALTECH, and is simultaneously running in 4 universities in Sweden, Latvia, Lithuania and Estonia.
The programme focuses on the following topics: supply chain management, quality management, rapid product development, production planning and management, e-manufacturing and innovation. The key words of the present situation worldwide are production globalization, international and local cooperation and dynamic market. For those reasons, concepts as design, development and management of integrated systems of people, knowledge, equipment and materials are included in the curriculum.
The increasing competitiveness in global market highlights the importance of rapid product development, design quality, multi-company collaboration, optimal price levels and predictability.
This program aims to prepare engineers who will be experts not only in a particular field on engineering, but also have required skills for company management. Such concepts as design, development and managements on integration with people, knowledge, equipment and material are included in the curriculum of the program.
Graduates can work in every field, starting from manufacturing and ending with retail.
This programme aims to prepare engineers who will be experts in a particular field of engineering and have the required skills for company management. Graduates can work in every field, starting from manufacturing and ending with retail. Possible positions include Production Manager, Project Manager, Quality Manager and CEO.
The programme offers a new and unique approach to energy issues and does not teach how to produce more energy but how to use energy more efficiently! The curriculum provides education in alternative energy materials science and engineering with a strong technology component with specialisations on either materials or processes in sustainable energetics. The goal of this programme is to educate specialists who are able to design, develop and improve materials for use in sustainable energy systems.
The programme offers a joint degree from two of the biggest and most respected universities in Estonia: Tallinn Tech and the University of Tartu
The goal of the programme is to educate engineers and material scientists in the field of sustainable energetics. For that reason there are two specializations to choose between:
Master's programme is connected to the industry and will offer experience in the Estonian Energy Company already during the studies.
The main aim of the curriculum is to educate engineers able to solve or minimize problems connected first of all with the utilization but also with the conversion, transportation and storage of energy. The curriculum provides education in alternative energy materials science and engineering at MSc level with a strong technology component.
The curriculum offers an integrated approach towards current and long term materials and energetics issues, focusing on technologies and concepts in sustainable development of industrial production and use of energy.
The courses will be taught both, in Tallinn University of Technology and University of Tartu in compact courses integrating lectures, laboratory and theoretical classes blocked to just several days duration enabling also the integration of foreign visiting students.
Energy is becoming more and more a major cost factor for all the players in the energy business due to increased worldwide consumption on the one hand and on the other hand a need to restrict the production of greenhouse gases.
By 2030, the world's energy needs are expected to be 50% greater than today. Nowadays, much of this energy comes from non-renewable sources, such as fossil fuels- coal, oil and gas. These fuels are being used faster rate than they are produced and may be unavailable for future generations. At the same time, there is a need for a 25% reduction in greenhouse gas emissions by 2050 to avoid serious changes in the Earth's climate system.
In 2009 Tallinn University of Technology launched in cooperation with University of Tartu a joint master programme „Materials and Processes of Sustainable Energetics“ which teaches different sustainable energy methods.
Keywords such as solar energy, fuel cells, biomass, and wind energy are just the tip of the iceberg to describe the programme. Student can choose specialization either in materials of sustainable energetics or processes of sustainable energetics. Specialization on materials of sustainable energetics will give the student knowledge about solar panels and fuel cells- there is already a spin-off company Crystalsol which specializes on building solar panels. Students who choose to study processes of sustainable energetics will learn different ways how to produce and combine sustainable energy- solar, wind, biomass, etc.
Volume of the programme is 2 years and graduates will be awarded with the Master of Science in Engineering.
Since the beginning of the programme, almost 50% of the graduates have continued their studies at PhD level in Tallinn University of Technology or in other universities in Europe or America. This has the result of many career possibilities as a researcher in the field of fuel cells and solar panels for material specialisation students whereas processes students are demanded in industries related to sustainable energetics.