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Electromechanical Engineering
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Summary of the Profile
General description: Objective(s) of the study programme: The goal of the Electromechanical Study Programme is to equip specialists of electromechanical engineering being able to independently design various technical items and select the proper technological processes, understanding the structure and operating principles of electromechanical equipment, capable of operating and performing the maintenance of technological equipment
Learning outcomes: 1. Has the general knowledge bases of mathematics, physical and/or technological sciences, allowing to understand and describe the processes taking place in the study field of mechanical engineering sciences. 2. Knows the essential concepts of the study field of mechanical engineering sciences and understands their content. 3. Acquired fundamental and latest knowledge of the study field of mechanical engineering sciences, which would be applied in practice. 4. He is familiar with the principles of digital production, cloud production processes, Internet of Things, business management systems and augmented reality.
5. Able to analyze the processes and products of the study field of mechanical engineering sciences, understand and interpret the obtained results. 6. Able to solve engineering problems by choosing appropriate methods, experimental and production equipment. 7. Understands design methodologies, is able to apply specialized software for process analysis and data management, designing processes and products of the study field of mechanical engineering sciences according to established technical, economic and environmental requirements. 8. Able to find, systematize and interpret the information required for studies in the field of mechanical engineering sciences. 9. Able to perform the necessary experiments to solve engineering problems, analyze the obtained results and present conclusions. 10. Has the skills to work with the equipment used in the field of study of mechanical engineering sciences. 11. Able to practically solve the problems of the field of study of mechanical engineering sciences. 12. Able to participate in working groups, implementing projects of the study field of mechanical engineering sciences, taking into account the principles of circular economy, artificial intelligence, industrial digitization, ethical, environmental protection, commercial, operational organization, worker safety and health circumstances and the development of the concept of sustainability. 13. Able to cooperate with specialists of other professional activities. 14. Able to solve engineering tasks individually and in a team. 15. Can communicate with the engineering community and the general public in correct Lithuanian and at least one foreign language. 16. Understands the impact of engineering decisions on society and the environment, adheres to professional ethics and norms of engineering activity, understands responsibility for the results of engineering activity. 17. Knows the main aspects of project execution and management at the level of engineering activities. 18. Understands the importance of individual lifelong learning. Activities of teaching and learning: Lectures, seminars, practical work, laboratory work, team work, individual work, tutorials,case study, professional practice, online studies and other learning activities Methods of the assessment of student academic progress: Control work, testing, interviews,, practice report presentation, work reviews, exams, course work, colloquiums, laboratory work defence, portfolio, laboratory work report. Examinations are conducted in a written and oral form.Framework: Study subjects (modules), practical training: Subjects: Basics of Communication, Basics of Studies, Basics of Engineering, Basics of Computer Aided Design, Basics of Mechanical Engineering, Computer Aided Manufacturing 1, Computer Aided Manufacturing 2, Electrotechnic, Applied Researches, Machine Elements, Computer Aided Engineering (CAE), Automatic Control and Controllers, Control of Technological Processes, Robots Control, Production Practice, Final Practice Module. Volume of the study field subjects - 129 credits; Practice - 36 credits. Specializations: - Optional study subject courses: The student is allowed to select the optional general college study subjects, confirmed by the college director‘s resolution (OS1, OS2), also alternative optional subjects, foreseen by the Study Programme Committee. Specification of the study programme: Access to professional activities or further education: Access to professional activity: Graduates of the Electromechanical Engineering study programme having obtained the related knowledge and abilities of mechanics and electrical engineering will be
able to work as technologists, CNC machine operators, designers responsible for collect machinery and machine design work, will be able to adjust CNC machine tools and develop their programs of control. Moreover, graduates will also be able to work in various enterprises that operate different types of technological equipment, collect machinery and machines and be responsible for the safe operation of electromechanical equipment, work as foremen or unit managers responsible for the organization and management of production. Access to further education: Graduates can seek their learning outcomes to be included if they intend to continue their studies according to the university study programmes of the first cycle. Having completed supplementary studies or having accomplished the requirements of other higher education institutions, graduates are allowed to enter the second cycle master degree studies.
