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Masters Degrees (Graz)

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You can manage international projects in the field of mechanical engineering! Design, produce and market cutting-edge technologies! In the master's degree programme Production Science and Management at TU Graz, you can become an international expert working at the interface between mechanical engineering, economy and management. Read more

You can manage international projects in the field of mechanical engineering! Design, produce and market cutting-edge technologies! In the master's degree programme Production Science and Management at TU Graz, you can become an international expert working at the interface between mechanical engineering, economy and management.

Content

  • Deepen fundamental knowledge in production science and the economic sciences
  • Understand current theories, principles and methods of production science and apply these in practice
  • Combine technical knowledge with economic capabilities and social as well as international competence skills
  • Gain knowledge about building up industrial production: product development, planning, procurement, production, sales and marketing
  • Conduct independent research and application-oriented projects
  • Prepare and present results of work effectively and using modern tools
  • Write scientific reports
  • Develop and hone social skills such as teamwork, team leadership and negotiation strategies
  • Improve English terminology and gain international experience through subsidized stays abroad

Specialisation Subjects

You can specialise in

  • Advanced Technologies and
  • Management and Social Economics.

For the individual courses, please see the semester plan.

Career Options

Graduates work at the interface between technology and economy in many sectors and branches of industry.

  • They are responsible for developing, planning, procuring, producing and marketing products.
  • They find solutions to technical and economic problems.
  • They develop and market cutting-edge technologies.

Students can already begin working with partner companies while pursuing their studies at TU Graz, for example, with high-tech enterprises that focus on the automotive industry. This helps graduates when they begin their careers.



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Physics forms the basis of many other sciences as well as of innovative technical and industrial developments. Read more

Physics forms the basis of many other sciences as well as of innovative technical and industrial developments. In the NAWI Graz master's degree programme Technical Physics, students build on the knowledge acquired in the bachelor's degree programme and extend their skills in solving physics problems and mathematical problems so that they can work on research related and application oriented questions. Numerous career options are open to students after graduation, both in Austria and abroad. They can choose to continue researching fundamental aspects of physics or work developing new materials, technologies and processes for industry.

Dean of Studies Roland Würschum:

"As a special bonus, the NAWI Graz cooperation offers a chance for internationalisation and to attend a broader range of courses. The theoretical course contents have been optimally adapted to match the practical courses, such as research laboratories and computer-assisted simulations, through the modern modularisation of the curriculum."

Content

  • You increase your knowledge of physics and maths.
  • You acquire specialist knowledge in the following areas:
  • Statistical and Computational Physics
  • Advanced Quantum Mechanics and Atom Physics
  • Advanced Solid State Physics and Radiation Physics
  • You acquire knowledge in Business and Entrepreneurship.
  • You apply physics methods in experiments, in theory and using computers.
  • You analyse complex procedures using modern computer simulation processes.
  • You learn to think logically and systematically and to acquaint yourself with new physical and technical problem areas.
  • You work on interdisciplinary problems, e.g. in mathemathics, chemistry, medicine and environmental systems sciences.
  • You improve your specialist English vocabulary.

Specialisation Areas

You can specialise in three of the following areas:

  • Applied Materials Physics
  • Computational Condensed Matter Physics
  • Laboratory Technology and Instrumentation
  • Microscopy and Nanoanalysis
  • Modelling of Materials
  • Nano and Laser Optics
  • Nanoscience
  • Quantum Many-Body Physics
  • Quantum Optics and Molecular Physics
  • Radiation and Plasma Physics
  • Semiconductor Devices
  • Surface Science
  • Theoretical Solid State Physics

Further options for specialised modules are offered as part of a stay abroad.

Career Options

Technical physicists are regarded as the universal problem solvers in innovative industries. They work as highly-qualified experts in scientific and technological areas of industry, business and science both in Austria and abroad.

Technical physicists primarily work in the following industrial sectors:

  • Universities and other educational and research institutions
  • Data processing
  • Electronics and electrical engineering
  • Precision mechanics and optics
  • Mechanical engineering and vehicle construction
  • Health care and public services
  • The services sector and company services


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The material sciences form the foundations that allow technological innovation and the development of pioneering technologies. In the interdisciplinary, NAWI Graz degree programme Advanced Materials Science, offered in the English language, you gain an understanding of materials and their properties. Read more

The material sciences form the foundations that allow technological innovation and the development of pioneering technologies. In the interdisciplinary, NAWI Graz degree programme Advanced Materials Science, offered in the English language, you gain an understanding of materials and their properties. You learn the physical and chemical fundamentals as well as the engineering skills needed to develop new materials. As a trained material scientist, you are able to tackle a wide variety of complex tasks in industry and research.

Content

  • You will learn about the production, processing, characterization, modeling and application of materials in an interdisciplinary way.
  • You will learn how to apply complex scientific methods used in the fields of physics, chemistry and materials science.
  • You may choose one of the following areas of specialization:
  • Metallic and ceramic materials
  • Semiconductor process technology and nanotechnology
  • Bio-based materials
  • You learn to work together in project teams in an interdisciplinary and problem-solving oriented way.
  • You document and present your results and strategies using state-of-the-art communication and presentation techniques.

Barbara Glanzer, master's degree student in Advanced Materials Science:

"What I particularly like about my degree programme is that it offers the opportunity to acquire both a theoretical understanding of the characteristics of materials, as well as of their practical applications."

Career Options

Graduates work nationally and internationally in:

  • industrial research and development, for example, in the materials, chemical, and semiconductor industries,
  • high-tech areas such as sustainable technologies, process innovation, and information technology, and
  • research and teaching facilities at universities and other research institutions.


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The prolonged life expectancy of people leads to enormous cost increases in the health sector. This increases the need to find new solutions for efficient, safe and cost-effective health care. Read more

The prolonged life expectancy of people leads to enormous cost increases in the health sector. This increases the need to find new solutions for efficient, safe and cost-effective health care. Thanks to the simultaneously rapid development of technical possibilities, medical technicians are able to develop improved diagnostic and therapeutic solutions, technically implement them and, efficiently and economically, make them available.

In the field of medical technology, you develop technical solutions for medicine of the future. In the master’s programme Biomedical Engineering at the TU Graz, you deepen your basic knowledge gained from the bachelor's programme and specialize in 5 promising areas of medical technology.

Content

In this Programme, you select one of the 5 technical elective subjects as a major. As a minor, you can select another technical or non-technical elective subject.

Eva Gleichweit, master's degree student in Biomedical Engineering:

"I opted for Biomedical Engineering because the combination of medicine and technology really appealed to me. In addition, the job prospects are not bad - at least I can approach a wide range of companies with my broad training background."

Technical subjects

  • Biomechanical Engineering
  • Biomedical Instrumentation and Sensors
  • Biomedical Imaging and Sensing
  • Computational Neuroscience
  • Health Care Engineering

Non-technical subjects

  • Business, Law, Management and Soft Skills

Details about the possible combinations of minor and major subjects can be found in the curriculum.

The individual courses can be found in the semester plan.



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Biogenic resources are a central component of a sustainable economic system in Europe. Biorefinery engineers develop, plan and implement innovative, technical products and processes for using biogenic resources economically and in an ecologically sustainable manner. Read more

Biogenic resources are a central component of a sustainable economic system in Europe. Biorefinery engineers develop, plan and implement innovative, technical products and processes for using biogenic resources economically and in an ecologically sustainable manner.

You will acquire all the knowledge necessary for this from the very wide-ranging technical specialisations covered in the Master’s degree programme Biorefinery Engineering at the TU Graz: this expertise extends from process engineering to chemistry and biotechnology through to energy engineering and environmental engineering. The focus in all of this is on innovation orientation, a close link to practice and also international activities of the students.

Marlene Kienberger, Assistant Professor Biorefinery Engineering:

"The close link with practice and the orientation towards innovation of this degree programme enables students to carry out high-quality, structured research work and to develop innovative systems with a scientific basis to convert biogenic resources into energy and high-quality products economically and with great ecological responsibility as part of a modern bioeconomy."

Content

  • You will acquire the engineering sciences knowledge and skills necessary for the construction and operation of technical systems for the use of biogenic resources.
  • You will learn how to develop and optimise process engineering methods.
  • You will be able to evaluate the technical, logistic and economic challenges resulting from the use of biogenic raw materials along the entire chain of valued creation.
  • You will learn how to understand deal with complex problems in scientific and industrial contexts, to formulate these and to develop and present the solutions for them.
  • You will assess regional, economic, social and ecological framework conditions in the context of the bioeconomy.
  • You will learn how to recognise trends in bio-based industry.
  • You will acquire the scientific and analytic methods needed to evaluate and characterise biogenic resources.
  • You will carry out independently high-quality and structured research work.
  • You will carry out research-led traineeships at the university or with industry partners.

You can find each of the individual courses offered in the curriculum.

International activities

Students have optimal opportunities to prepare themselves for activities in an international environment with the numerous provisions on offer:

  • Courses in cooperation with international academic and industrial partners
  • International practical internships
  • Participation at international winter and summer schools at home and abroad
  • Semesters abroad


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Through the interdisciplinary NAWI Graz master’s programme Biotechnology, internationally recognized instructors provide you with knowledge about technological processes occurring in biosystems as well as about the development and use of biotechnological applications and methods. Read more

Through the interdisciplinary NAWI Graz master’s programme Biotechnology, internationally recognized instructors provide you with knowledge about technological processes occurring in biosystems as well as about the development and use of biotechnological applications and methods. The core areas are molecular biotechnology, biocatalysis, and environmental, food, enzyme and bioprocess technology. Students benefit from access to the excellently equipped laboratories and modern infrastructure.

Content

  • You learn working and analytical methods used in the fields of microbiology, molecular biology, biochemistry, and gene, enzyme and fermentation technology.
  • You independently perform cutting-edge scientific and technological experiments.
  • You assess the results of experiments, identify problems and propose solutions.
  • You learn to develop new strategies by considering and assessing current research findings.
  • You use modern information technology in bioinformatics.
  • You work in teams and present results.

Core areas

  • Molecular Biotechnology and Bioinformatics
  • Bioprocess Technology
  • Environmental and Food Biotechnology

Specialisation subjects

You may choose 2 of the following areas of specialisation:

  • Enzyme and Protein Technology
  • Systems and Synthetic Biotechnology
  • Bioprocess Engineering
  • Environmental and Food Biotechnology

For the individual courses, please see the semester plan.

Career Options

Graduates are employed in leading positions in both the basic and applied sciences in academia and industry. Biotechnologists plan experiments and analyses, implement these and examine existing solutions. Their problem-solving skills are needed for research and technological development.

Graduates work in the following areas:

  • industrial biotechnology,
  • chemical manufacturing using biocatalytic processes,
  • pharmaceutical research,
  • food technology,
  • environmental biotechnology,
  • agricultural research,
  • in relevant university and non-university research institutions and
  • with public authorities or in public offices.


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The interdisciplinary master’s programme Chemical and Pharmaceutical Engineering at TU Graz connects the natural sciences of chemistry and pharmacy with the engineering field of chemical and process engineering. Read more

The interdisciplinary master’s programme Chemical and Pharmaceutical Engineering at TU Graz connects the natural sciences of chemistry and pharmacy with the engineering field of chemical and process engineering. In this one-of-a-kind study, you work together with internationally recognized lecturers in well-equipped laboratories. The study qualifies you to conduct high-quality national and international and to develop innovative chemical and pharmaceutical production systems for industry.

Klara Treusch, master's degree student in Chemical and Pharmaceutical Engineering:

"This master's programme is an interesting challenge for all who want to gain access to the chemical and pharmaceutical industries from the perspective of engineering technology. It opens doors to other fields of work, such as chemical and process engineering."

Compulsory Subjects

  • You become familiar with the most current theories, principles and methods in the engineering sciences.
  • You consider the economic and legal aspects of chemical and process engineering.
  • You deal with, for example, chemical engineering, particle process engineering, chemical thermodynamics and applied analytics.
  • You can specialize in the area of pharmaceutical process engineering.

Specialisation subjects

You may choose one of 2 areas of specialization:

CHEMICAL ENGINEERING

In this area specialization, you gain expertise in chemical and process engineering and learn about the mission of the chemical industries of the future – to develop sustainable and economical chemical processes.

PHARMACEUTICAL ENGINEERING

Intelligent pharmaceutical products will revolutionize medical care: Personalised products can be customized to fit the age, sex and lifestyle of individual patients. You learn ways to develop pharmaceutical products more quickly and reduce production costs.

Catalogues of elective courses

You may choose courses from the following catalogues of elective courses:

  • Chemical Engineering
  • Pharmaceutical Engineering
  • Technical Chemistry

During your studies, you will have the chance to improve and enhance your social and soft skills, for example, through project work, during lectures, while conducting written work and working in teams.

For the individual courses, please see the semester plan.



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The master’s programme Computer Science taught in English at TU Graz offers you a vast number of opportunities to specialize in a particular field. Read more

The master’s programme Computer Science taught in English at TU Graz offers you a vast number of opportunities to specialize in a particular field. You may choose 2 out of 12 areas of specialization, in which you wish to develop your expertise. You receive instruction from internationally recognized scientists and will be involved in research projects. You can take advantage of cooperative networks with top-universities in the USA, work with the best software and hardware and study at internationally acclaimed institutes.

Fiona Draxler, master's degree student in Computer Science:

"In my degree programme, I choose two majors and can choose my special subject areas according to my own interests. Many practical exercises are carried out in groups. In this way, we can help one another and gain a lot of experience with teamwork and organization."

Compulsory Subjects

  • Compiler Construction
  • Discrete Stochastics and Information Theory
  • Enumerative Combinatoric Algorithms
  • Geometry for Computer Scientists
  • IT Security
  • Numerical Optimization

You may choose 2 out of these 12 catalogues of elective courses:

  • Algorithms
  • Computational Intelligence
  • Computer Graphics
  • Computer Vision
  • IT Security
  • Knowledge Technologies
  • Multimedia Information Systems
  • Pervasive Computing
  • Robotics
  • Software Technology
  • Mathematical Foundations
  • Artificial Intelligence/Machine Learning (Double diploma programme with the University of Ljubljana)

For the individual courses, please see the semester plan.



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The only degree programme of its kind in Central Europe. In the English language master's programme Geotechnical and Hydraulic Engineering at TU Graz, you profit from a combination of two disciplines - geotechnical engineering and hydraulic engineering. Read more

The only degree programme of its kind in Central Europe: In the English language master's programme Geotechnical and Hydraulic Engineering at TU Graz, you profit from a combination of two disciplines - geotechnical engineering and hydraulic engineering. You learn in a practical manner, participating in practice sessions in the laboratory and on-site, and taking part in field trips. For example, you pilot hydraulic projects in Austria’s largest water laboratory.

Georg M. Ausweger, master's degree student in Geotechnical and Hydraulic Engineering:

The tasks in our area are unique - in many different respects. To be able to solve them, you need solid specialist knowledge and the ability to apply an innovative approach. These fundamental aspects are taught well in the degree programme, and can even be applied by students during their internships, made possible by the teachers’ good connections to the industry.

Content

Students acquire a solid knowledge of geology, soil mechanics, foundation engineering, rock mechanics, tunnelling, hydraulics and structural hydraulic engineering.

Core areas

  • Students design, assess, monitor and create
  • foundations,
  • supporting structures,
  • natural and artificial scarps and slopes,
  • tunnels and underground structures,
  • dams and hydro power plants
  • They quantify soil, rock and hydraulic qualities.
  • They focus on the material behaviour of geomaterials.
  • They learn about catastrophe management and how to deal with natural hazards.

Students choose from one of the following specialisations:

  • Hydraulic engineering and water management
  • Soil mechanics and foundation engineering
  • Rock mechanics and tunnelling

For the individual courses, please see the semester plan.



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Information technologies and electrical engineering continue to develop at a rapid pace and have a major influence on everyday life and business. Read more

Information technologies and electrical engineering continue to develop at a rapid pace and have a major influence on everyday life and business. In the master’s degree programme Information and Computer Engineering taught in English at TU Graz, you work with internationally renowned scientists and teams from industry and research on the technologies of the future.

Eugen Brenner, Dean of Studies

"We have completely reworked the study programme and given it a modern, international form. From the eight catalogues available, you choose a major and a minor. In addition, we have introduced English as the language of instruction."

Content

  • You study the main theories, principles and methods of information processing, information technology and electrical engineering.
  • With the support of a mentor, you specialise in two fields.
  • You work on projects with fellow students, and teams from industry and international research.
  • You learn how to present project results in reports and lectures in a scientifically correct manner.
  • You learn how to handle the rapid development of information technologies and electrical engineering and how to update your own knowledge independently.
  • You have the opportunity to complete a study period abroad, providing the ideal complement to your degree programme.

Eight fields are available to choose from

  • Secure and Correct Systems
  • Computer Vision and Graphics
  • Robotics and Computational Intelligence
  • Signal Processing and Human Communication
  • Communications and Mobile Computing
  • Embedded and Automotive Systems
  • Measurement and Control Systems
  • Microelectronics and IC Design

Alternatively you can choose the Major in Internet of Things.

For the individual courses, please see the semester plan.



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Physicists explore the characteristics of the world and the universe and refer to them to formulate the laws of nature, the most fundamental descriptions of reality. Read more

Physicists explore the characteristics of the world and the universe and refer to them to formulate the laws of nature, the most fundamental descriptions of reality. This makes them universal problem solvers. You develop the analytical properties needed to meet key challenges in scientific, economic and industrial fields by working with experimental, theoretical and computer-based methods.

In the NAWI Graz master's degree programme Physics, you will build upon knowledge obtained during the bachelor's degree programme and deepen your understanding of an area of expertise in the field of physics as well as familiarise yourself with the latest physical research, especially basic research. You will gain a comprehensive understanding of physics. You will become highly qualified to perform various tasks both in Austria and abroad by completing this research- and application-based programme in an international environment.

Peter Puschnig, Curricula Committee Physics:

"The master’s programme in Physics provides you with solid basic training and offers you many opportunities to deepen your knowledge in areas ranging from astrophysics and climate physics to nanophysics and elementary particle physics. Through this programme, you contribute to the fundamental human knowledge about the world."

Content

  • You deepen and broaden your physical and mathematical knowledge.
  • You familiarise yourself with current physical research.
  • You specialise in an area of expertise in the field of physics.
  • You learn to solve complex problems independently using physical and mathematical methods.
  • You learn to think analytically.
  • You use experimental, theoretical and computer-based physical methods to solve problems.
  • You improve your specialist English vocabulary.

Specialisation subjects

You can choose one of the following areas of specialisation:

  • Astrophysics
  • Atmospheric Physics and Climate
  • Experimental Physics
  • Space Physics and Aeronomy
  • Theoretical and Computational Physics

It is possible to individually combine modules from the areas of specialisation with guidance from a mentor.



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In the master's programme Software Engineering and Management taught in the English language at TU Graz, you deepen your knowledge in these fields. Read more

In the master's programme Software Engineering and Management taught in the English language at TU Graz, you deepen your knowledge in these fields. Select 2 elective subjects in which you want to gain expertise. You learn from internationally recognized scientists and benefit from collaborations with top universities in the US. You will, for example, be included in research projects and work together on current issues.

Dean of Studies, Denis Helic:

"Our national and international industrial partners are constantly looking for good software developers. Through the programme Software Engineering and Management, students acquire both in-depth technical expertise in software development and industry expertise in management. Graduates with these useful skills represent highly qualified professionals in the industry."

Compulsory Subjects

  • General Management and Organisation
  • Industrial Management and Innovation
  • IT Security
  • Knowledge Discovery & Data Mining 1
  • Verification and Testing

Elective Subjects

Select 1 of the 4 catalogues of electives in the field of SOFTWARE ENGINEERING and 1 of the 4 catalogues of electives in the field of MANAGEMENT:

SOFTWARE ENGINEERING

  • Intelligent Systems
  • Secure and Correct Systems
  • Visual Computing
  • Web and Data Science

MANAGEMENT

  • Business Informatics
  • Industrial Management and Innovation
  • Management and Strategy
  • Management Control, Accounting and Finance

For the individual courses, please see the semester plan.

Career Options

Graduates acquire a broad base of knowledge in the field of software development as well as advanced management and leadership skills.

Graduates

  • develop technologies and information theories,
  • advance to leading positions in management, and
  • develop high-quality and high-performance software systems.


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In the master's degree programme Technical Chemistry at TU Graz, you put your chemical and technical knowledge into practice. Read more

In the master's degree programme Technical Chemistry at TU Graz, you put your chemical and technical knowledge into practice. Through the programme’s modular structure, you can choose individual specialisations to match your interests. Whether you improve construction materials, optimise chemical processes in industry or work on the further development of batteries and other possibilities for chemical energy conversion – after your master's degree programme, countless career opportunities in Austria and abroad will be open to you.

Angelina Eder, master's degree student in Technical Chemistry:

"Priority is given to improving and developing application-specific techniques. I particularly like the variety of topics and the application of practice-oriented problems in this degree programme."

Content

  • You deepen your knowledge of applied and technical chemistry and apply it in an interdisciplinary manner.
  • You specialise in a field of technical chemistry.
  • You learn the practical application of technical chemistry in industry and research.
  • You perform experiments in laboratories with modern equipment.
  • You assess the risks involved in handling substances and products and regarding processes.
  • You work on and interpret scientific problems independently – with individual supervision by teachers and researchers.
  • You conduct research and work independently and in a team, e.g. in laboratory courses, on projects and theses.
  • On funded study periods abroad, you improve your specialist English vocabulary and gain international research experience.
  • You carry out research projects with business partners and partner universities in Austria and abroad.
  • You present research results effectively.
  • You gain professional experience during traineeships or by working on your master’s thesis at renowned industrial partner institutions.

Specialisation Courses

  • Renewable Resources
  • Macromolecular Chemistry and Plastics Technology
  • Inorganic Substances and Electrochemistry

For the individual courses, please see the semester plan.

Career Options

Technical chemists work in the chemical industry and in industrial sectors where chemical processes are important, e.g. in material development, water resources management, environmental technology or waste management.

  • They develop and test new substances and materials.
  • They improve construction materials for the construction industry.
  • They work on new developments in the field of environmental technology, e.g. in recycling, plastics technology or pollutant containment.
  • They develop organic conductors and semiconductors for the IT sector.
  • They manage technical research projects in industry and business.


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The number of projects using biobank samples for research is constantly increasing. At the same time, requirements on quality of biobanking samples are increasing because of the growing spectrum of potential methods for different analyses and applications. Read more
The number of projects using biobank samples for research is constantly increasing. At the same time, requirements on quality of biobanking samples are increasing because of the growing spectrum of potential methods for different analyses and applications. The further development of biobanking processes depends on a deeper understanding of biobanking processes, to keep quality of biobank resources up-to-date with research. Hence, there is an essential and demanding requirement for training of experts in the field of biobanking, e.g. of well-structured postgraduate training programs.

The distance learning master course „MSc in Biobanking” is organised to be completed within four semesters (90 ECTS Credits) and the curriculum is comprised of 13 modules. It is open for graduates with a bachelor degree in medicine, technical specialists and graduates in natural sciences (biology, pharmacy, biotech etc.), who have interest in the field of biobanking or wish to specialise or broaden their professional knowledge in biobanking. Also people with a respective expertise working in biobanks may apply.

The goal of this course is to acquire knowledge, experience and practical skills which will qualify for working in the multidisciplinary field of biobanking. Therefore, knowledge and skills that will be educated include areas such as (1) organisation of a biobank, (2) implementation of a biobank in the health care system and in existing research infrastructures, (3) representing a biobank and networking in the national and international area, (4) sample management including pre-analytic handling, logistics, storage and shipment, (5) quality management, (6) ELSI (ethical, legal and societal issues of biobanking), (7) biobanking IT-landscapes and needs, (8) biobank budgeting, business planning and sustainability and others.

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Data encryption, risk management in finance and insurance and mathematical imaging – mathematicians use analytic and computer-assisted techniques to understand the increasing complexity in natural sciences, life sciences, economics and engineering. Read more

Data encryption, risk management in finance and insurance and mathematical imaging – mathematicians use analytic and computer-assisted techniques to understand the increasing complexity in natural sciences, life sciences, economics and engineering.

Josef Strini, master's degree student in Mathematics:

"Whether we’re solving sample exercises or discussing the most recent lectures, there are always possibilities for exchanging information with the students and lecturers in my programme. I recommend my programme to all those who are interested in mathematical relationships, are prepared to critically examine these and have the drive and patience to ensure their accuracy."

Content

In compulsory and advanced courses, you develop mathematical knowledge in the following areas:

  • Analysis
  • Algebra
  • Stochastics
  • Numerical mathematics
  • Discrete mathematics

You choose from one of the following specialisations:

  • Applied mathematics
  • Discrete mathematics
  • Financial and actuarial mathematics
  • Statistics and operations research
  • Mathematical engineering

For the individual courses, please see the semester plan.

Career Options

Mathematicians work in areas such as industry, commerce and science.

  • They apply mathematical methods in industry, technology and the natural sciences.
  • They use deterministic and stochastic models in commerce, administration, finance and insurance.
  • They tackle questions of data security and communication technology in theory and practice.
  • They develop methods without which many devices and technologies of modern day life would not exist - for example, imaging processes in medicine and technology, communication and security in data transfer, risk management for banks and insurance companies, and computer-aided processes in natural sciences and technology.


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