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Mechatronics
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Summary of the Profile
General Description:
Objective(s) of a study programme:
To teach theoretical knowledge of production and manufacturing engineering and through understanding of fundamentals, theories and principles of the mechatronic science, to introduce abilities and experience of process planning, design the mechatronic systems, choosing and applying technological equipment.
Learning outcomes:
Knowledge and Understanding:
A1 Has knowledge and understanding of the underpinning for mechanical, electronics and informatics engineering mathematical concepts and principles.
A2 Has fundamental knowledge of natural sciences and phenomena of nature which are basic for engineering, understanding of quantitative expressions of those phenomena.
A3 Has knowledge and understanding of the essential theoretical and applied fundamentals, and concepts in mechatronics.
A4 Has awareness of multidisciplinary context of engineering, ability to adapt knowledge and abilities from other fields in mechatronics.
Engineering Analysis:
B1 Is able to apply knowledge and understanding for problems identification, formulation and solving in the field of mechatronics.
B2 Is able to apply knowledge and understanding for engineering problems analysis, to select and apply relevant analytical, computational, experimental methods and to choose industrial equipment for solutions implementation.
B3 Has ability to evaluate impact of different fields’ concepts integration to mechatronic systems development.
Engineering Design:
C1 Is able to apply knowledge and understanding of mechatronics for development of projects with specified requirements.
C2 Has understanding of mechatronic components and systems design methodologies and has ability to use them properly.
Investigations:
D1 Has ability to conduct searches of literature and to use databases and other sources of information in the field of studies.
D2 Has ability to plan and conduct appropriate experiments, interpret the data and draw conclusions in the area of mechanical, electronics and informatics engineering.
D3 Has laboratory skills and is able to work with different equipment in laboratories of mechatronics.
Engineering Practice:
E1 Is able to combine theoretical and practical knowledge, to select and apply the proper methods, means and equipment for the implementation of engineering projects.
E2 Is able to choose the appropriate elements of mechatronic systems, knows the typical structures, operating principles and functions of them, has the initial skills of usage of mechatronic equipment.
E3 Is able to understand social, environmental and economic implications of mechatronic systems development and manufacturing actions.
E4 Is able to understand organisational and managerial issues of mechatronic systems development and manufacturing in the industrial and business context.
Engineering Practice:
F1 Is able to work independently or as a member of team and cooperate effectively with engineers from different fields.
F2 Is able to communicate effectively with the engineering community and with society at large.
F3 Has holistic approach in professional decisions is able to understand technical and non-technical implication of engineering practice.
F4 Has abilities and skills of project management and business practices in the area of mechatronics. Is able to understand relationship between technical decisions and economic consequences.
F5 Has ability to recognise the need for and to engage in independent life-long learning.
Activities of teaching and learning:
Methods of assessment of learning achievements:
Framework:
Study subjects (modules), practical training:
In total, the programme consists of 38 study subjects, Practise (3 cr. 3 sem.), Professional practise (12 cr. 8 sem.), and Bachelor degree project (12 cr.) including deepening study programme subjects (30 cr.).
The programme includes the following subject groups:
General Subjects of University Studies (12 cr.)
Core Subjects of Engineering (36 cr.)
Mathematics and Physical Sciences Subjects (30 cr.)
Social Sciences Subjects (15 cr.)
Core Field Subjects (75 cr.)
Deepening Study Programme Subjects (30 cr.)
Optional courses (15 cr.)
Specialisations:
Optional courses:
Distinctive features of a study programme:
A graduate has theoretical knowledge in mechanical engineering, applied electronics and control engineering systems, understands design methods and techniques, is able to identify and analyse technical (industrial) problems and propose solution strategies, formulate and solve practical tasks of mechatronics, can design and analyse mechatronics systems, as well as develop manufacturing technologies of mechatronic products.
Access to professional activity or further study:
Access to professional activity:
The graduate is able to perform organizational, technological and design work, carry out operation and maintenance of mechatronic systems and perform other engineering, expert-consulting work in companies and enterprises, where advanced engineering knowledge is necessary.
Access to further study:
Access to the second cycle studies.
