Master Mechatronics and Robotics

A Program for Border Crossers!

You are fascinated by Industry 4.0? Are you ambitious to apply sophisticated and smart robot systems to the automation of production and the customizing of products? You feel there's no use in drawing a sharp line of demarcation between mechanical engineering, information technology and electrotechnology? Then become a sought-after specialist in mechatronics and information technology, which is a strong foundation for a professional career in automotive engineering, automation technology, medical technology and many other fields at the interface between mechanical engineering, information technology and electrotechnology.

What experience or characteristics do I need?

The formal requirements for acceptance on this Master degree course are:

  • a Master's degree qualification (see TUM glossary of documents),
  • specialised knowledge of fundamental subject areas relating to mechanical engineering:
    • higher mathematics,
    • technical mechanics,
    • machine elements,
    • material science,
    • fluid mechanics,
    • control engineering,
    • principles of modern information technology,
  • knowledge of German.

Why study with us?

You will benefit in many ways, experiencing top-ranking teaching and research in the field of Mechatronics and Robotics and taking advantage of outstanding interdisciplinary offerings of other TUM departments, e.g. at the newly founded Munich School of Robotics and Machine Intelligence (MSRM) – quite apart from cooperations of TUM and its Mechanical Engineering Department with companies, partners from industry and distinguished research institutes.

  • Take your chance of directly experiencing cutting-edge interdisciplinary research: the students of mechatronics and robotics at the Department of Mechanical Engineering engage in collaborative research with scientists at SMRM, working on future-oriented topics of mechatronics, robotics and artificial intelligence. Research projects are frequently undertaken in close cooperation with industry. It goes without saying that the latest cutting-edge research findings are disseminated in the course programs.
  • You are invited to cooperate under research projects as a scientific assistant, as a field researcher or as a prospective Master's graduate. Unique insights are guaranteed!
  • Our engineers set national and international benchmarks in research and teaching, as evidenced by numerous Rankings.
  • In our modern, light-flooded building everything is under one roof: all lecture rooms for the Master degree course, all of the department's aerospace professorships, together with related workshops, laboratories and technologies, advice and support services for students, such as the student advice service, the Mechanical Engineering Student Council, language centre and library. Take advantage of close proximity and make contact with tutors, students and advisors. We will be happy to help you.

As a graduate of the Department of Mechanical Engineering, many excellent prospects for the future will be open to you!

Structure and content of the Master degree course

Structure of the degree course

To successfully complete the Master degree course in Mechatronics and Robotics, you will require a total of 120 European Credit Transfer System (ECTS) credits. The following diagram shows the number of credits allotted to the different areas.

You will choose your MSc modules (each usually worth 5 credits) from six subject areas related to the degree course. Detailed information can be found in the Examination and Study Regulations relating to this degree course.

Curriculum

Four semesters are normally required to complete the Master degree course in Mechatronics and Robotics. You will put together an individual curriculum, taking modules from the catalogue of modules approved for the degree course.

The following diagram shows a suggested arrangement of individual modules over the four semesters allowed.

Content of the degree course

You will find the list of modules at the degree course documentation site. The degree course comprises modules covering

  • Overall system (e.g. automation technology, development of smart distributed embedded systems, methods of product development, robot dynamics, medical automation)
  • Automatic control (modern control 1-3, mechatronic device technology, control of discrete event systems)
  • Mechanics (e.g. dynamics of mechanical systems, kinematic rating of articulated structures by means of Matlab and Catia, finite elements, kinematics)
  • Information technology/computer aided methods (e.g. industrial software development for engineers, multidisciplinary design optimization, nonlinear finite elements, parallel programming)
  • Electrical engineering (e.g. rating of electric vehicles, microtechnical sensors/actuators, fundamentals of electric machinery, modelling of microstructured components and systems)

What skills will you acquire?

Mechatronics - a key technology fundamental to successful innovation - opens the door to future markets. Graduates of this application and research-focused degree program are optimally prepared for the challenges of this interdisciplinary arena at the interface between mechanical engineering, electrotechnology and information technology.

During their studies, prospective graduates earn a high-level overview of relevant fields of mechatronics and robotics. Since course teaching is broken down according to the areas of overall system, control engineering, mechanics, information technology and electrotechnology, the study program ensures that students are equipped with advanced knowledge and competencies in all central areas of mechatronics and robotics. Moreover, students are free to go deeper into specific subjects, gaining further insights into electrotechnology and/or information technology, for example, by attending an image processing course in robotics.

Since graduates learn how to network the specialized knowledge of the disciplines concerned, they are able to view a mechatronic system from all relevant perspectives. Expert know-how in all three disciplines of mechatronics plus awareness of interdisciplinary relationships are indispensable prerequisites not only for successful treatment of mechatronic systems along their entire lifecycle but also for their optimization regarding the quality of products and production processes.

Study and internships abroad during your degree course

Studying abroad

Would you like to study abroad for part of your degree? If so, why not apply for an exchange student place at one of TUM's many partner universities, see diagram above. Would you like to do an internship in another country? Here too there are many assistance schemes offered by TUM.

Application, admission and enrolment

From your application to beginning your studies

Application

  • Detailed information on application and enrolment
  • Department-specific information:
    • In addition, please also send in the university qualification curriculum from which the modules you studied and the competences learnt emanate (eg. module handbook, module descriptions).
    • Teaching will be held in German. International applicants therefore require a German language certificate.
    • Before a student is awarded a place, the Department of Mechanical Engineering will carry out an aptitude assessment.

Beginning of degree course

Information on the beginning of the degree course can be found on the beginning your studies site for current students.

Details on aptitude assessment at the Department of Mechanical Engineering

A condition of acceptance to study is the successful completion of the aptitude assessment, based on a complete application submission. All students, who can prove their suitability during this process, will be awarded a place.

Details on the assessment can be found in Appendix 2 of the Examination and Study Regulations (FPSO).

In the first stage of the assessment an evaluation will be made based on:

  • your covering motivation letter (max. 20 points),
  • your average marks in relevant modules at the time of application (max. 20 points) and
  • your specialist knowledge (max. 60 points).

In the diagram below you can see the assessment time flow. If you achieve 70 points or more, you be accepted directly. If you achieve less than 50 points, you will be rejected. If you have between 50-69 points, you will be invited to a written test.

If you achieve a total of 110 points or more, after you have done the written test, you will be accepted. Apart from the marks for the written test, the points for your specialist knowledge and the average marks in stage 1 will be taken into consideration.

Further information on the aptitude assessment

 

Proof of a university qualification giving eligibility to study for a Master degree

If you do now have a degree graduation certificate at the time of application, you may only apply if you have proof of having achieved at least 140 credits in a six-semester BSc degree course, at least 170 credits in the case of a seven-semester course and at least 200 credits from an eight-semester degree. (The number of semesters relates to the time usually required to complete the course.)

Proof of having achieved the required number of credits should take the form of a stamped, signed grade transcript from your examination board/degree course office. Please submit your BSc certificate to the enrolment office as soon as possible after receipt, at the latest one year after commencing the Master degree course.

 

The module handbook

Universities often provide a so-called module handbook, in which all modules relating to the degree course are described. Other universities refer to a curriculum. It must be clear from the descriptions of individual degree courses, what modules are included in the course in question and what competences are taught. This information is of great significance when checking qualifications during the aptitude assessment. The study plan itself is not sufficient. Should your university not provide a module handbook, please obtain written confirmation of the modules and content you studied. Please note: In this case it is your responsibility to collate information on the curriculum of the module subjects.

 

The covering motivation letter

An essential cornerstone of the aptitude assessment – apart from university qualification certificates – is a covering letter giving your reasons for choosing the degree course in question and wishing to study at the Technical University of Munich (TUM). Together with any additional, existing qualifications (please enclose proof of these qualifications), this part of the assessment can be awarded up to 20 points in the first stage of the assessment.

The covering motivation letter (max. two pages) should be written by you without help. Please outline, based on your degree studies to date, which competences, specific talents, interests and career wishes you have that make you particularly suitable for your desired degree course at TUM. Should you have any additional qualifications (eg. vocational training), please include them in your letter and enclose a copy of any records you may have relating to the qualifications.

 

The written test

The test:

  • is a written test,
  • lasts 80 minutes and is held at the Department of Mechanical Engineering building, Boltzmannstraße 15, 85748 Garching,
  • is divided into four blocks of assignments, each of which can be given up to 20 points,
  • includes questions on higher mathematics, technical mechanics, machine elements and material science,
  • takes place only once per application period for all Master degree courses in mechanical engineering. It is not possible to do the test at a later date.
  • might take this form:

 

Conditional admission

If during the aptitude assessment, it has been determined that only individual prerequisites from a first degree are lacking, you may be accepted on the condition that you take basic examinations from our B.A. Degree Course in Mechanical Engineering (= conditional admission). The conditional admission measures are therefore the written examinations from the compulsory basic level of the B.A. degree course, which then have to be passed in the first year of the M.A. degree course. As the tuition language of the B.A. Degree Course in Mechanical Engineering is German, the examinations are only offered in German. You may only sit the examinations twice. If you have not passed them by the end of the first year of the M.A. course, they are considered to have been failed for good. Acceptance on the M.A. degree course will then be withdrawn and the student in question will have to leave the university.

 

Information for Bachelor's students at the TUM Department of Mechanical Engineering

Information about progressing to the Master's programme

Dates and deadlines

  • The application portal is activated at least one month before the application deadline.
  • Deadline for degree courses starting in the winter semester: 31 May
  • Deadline for degree courses starting in the summer semester: 31 December
  • Date of written test:
    • Thursday, 05 August 2020 (application for winter semester 2020/2021)
  • Start of degree course and lecture period

Summary: Facts on the degree course

  • The degree course may be commenced either in the summer or winter semester
  • Final degree: Master of Science (M.Sc.)
  • Tuition language: German
  • Main location: Garching near Munich
  • No. of semesters usually required to complete course: 4 semesters
  • Fees and financial aid
  • Full-time degree course
  • Study abroad is possible

Download degree course brochure