Curriculum: Robotics Engineering 2020

2018 2019 2020

Completed secondary education in Estonia or education of an equivalent level obtained in a foreign state

Successful defense of graduation thesis. Completion of 240 ECTS CP of a programme including compulsory subjects - 189 ECTS CP,
practical training - 39 ECTS CP, graduation thesis 12 ECTS CP.

Bachelor of Science in Engineering

Diploma of Professional Higher Education, Diploma Supplement

The general objective of the applied higher education curriculum is the preparation of the student for work in the chosen specialty. The task of the modules of general education and basic subjects of the curriculum is to develop the general educational basis and social maturity of the students. . The acquisition of professional knowledge and skills takes place via theoretical subjects and practical classes, given in the curriculum, and through carrying out internship in enterprises (working environment). Knowledge and skills of the graduates give special competence enabling to work as specialist with constantly changing field of robotics, where tasks may include programming, repair, manufacturing, development of robots or robotic systems.

Bachelor of Science in Engineering

Completion of study program including compulsory subjects from all the curriculum modules, non-compulsory subjects in required amount, internship, graduation thesis.

in Master´s study

-Base studies
-Specialty studies
-Non-compulsory studies
-Internship
-Graduation thesis

The student who has passed the curriculum in full amount has the following competencies:
- has systematic overview of terms, theoretical principles and research methods in robotics;
- knows the IT technology, basics of automation, CAD/CAM systems and numerically controlled equipment;
- knows the basics of entrepreneurship, basics and economics of production management;
- knows how to use engineering basics of calculation in product development, designing and running technical systems;
- is able to formulate the problems connected to robotics engineering, is able to analyze and find different solutions;
- is able to evaluate the found solutions based on modern technology opportunities and from the economic point of view;
- possesses the communication and management skills necessary for working life.
- knows the measurement techniques and the methods of quality control;
- knows the materials, their characteristics and technological processes, equipment, appliances and cutting tools;
- recognizes interdisciplinary links between robot construction, maintenance and utilization;
- Understands the necessity of lifelong learning and is capable of developing himself professionally through independent self-improvement.
- is capable to participate at given specialty as expert or as an entrepreneur;
- Understands the legal regulations of environmental and occupational safety issues related to processing industry;
- Is ready to actively participate in civil society and is tolerant to diversity of opinions;
- Is capable of assessing the role and results of his professional actions, taking into account social and ethical aspects, and possible consequences in a wider context;
- Knows how to collect and analyse necessary work information and interpret it creatively

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