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Electronics Engineering and Robotics
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Summary of the Profile
General Description: Objective(s) of a study programme: Learning outcomes: 1.Awareness of the general concepts, regularities and laws of natural sciences and mathematics necessary for understanding the fundamentals of computer engineering; 2. Ability to attain sufficient knowledge of electronics and electrical engineering that is relevant to the practice of computer engineering. Awareness of the context of the related engineering field problems and their solutions; 3. Ability to apply the knowledge and understanding, select, analyse and implement scientific applied design methods, specifications, industrial work standards, computer engineering standards to solve problems using the relevant methods creatively; 4. Ability to apply analytical and modeling methods, diagnose and troubleshoot computer hardware and software problems, upgrade and control computer systems; 5. Ability to apply the knowledge and understanding formulating and implementing design tasks in accordance with the organizing
principles, structure, fuctionality and the quantitative system parameters of electronic systems and computer networks; 6. Ability to find the necessary professional information on the organization of electronic systems and computer networks by using databases and other relevant sources; 7. Ability to perform the necessary experiments to solve computer engineering problems, process the outcomes and produce the practical conclusions of these outcomes; 8. Ability to attain sufficient skills to work with the equipment used in the related field of computer systems and computer networks; 9. Ability to apply the knowledge and understanding to install and debug operating systems, applications and special software and organize the user environment, experimental and production equipment; 10. Ability to select and administer network operating systems, use ethical and commercial data protection measures to implement solutions; 11. Ability to solve engineering problems individually or in a team with an engineering community and general public, understand the impact of computer engineering solutions on the public and environment, follow the standards of professional ethics and engineering activities, and feel the responsibility for these activities; 12. Ability to understand the basic aspects of the project execution and management at the level of engineering activities, perceive the significance of lifelong learning and prepare for that. Activities of teaching and learning: Lectures, seminars, practical work, laboratory work, individual work, professional practice and other teaching / learning activities Methods of assessment of learning achievements: Examinations, colloquiums, tests, oral/written interviews, preparation and presentation of practice reports, preparation and presentation of semester papers, preparation and presentation of projects and other teaching/learning methods. Examinations and projects are executed in written and oral forms. The student‘s academic progress is assessed from 1point to 10 points. The assessment from 1 point to 5 points is unsatisfactory. Framework: Study subjects (modules), practical training:
Basics of Communication, Basics of Studies, Electrotechnics and Electrotechnical materials, Basics of electronics, Fundamentals of Engineering, Management systems, Electrical equipments, Robots Control, Design of electronic systems, Applied Reserch, Management of mechatronics systems, Engineering economics, Project management, Controllers, Final practice. Specialisations: Optional courses: Online technologies A1/ Smart Things Technologies A2 Distinctive features of a study programme: In the electronic engineering and robotics study program, engineering specialists will be able to install, operate, design functional units of electronic systems, program controllers, industrial robots and manage robotic technological processes. Access to professional activity or further study: Access to professional activity: Graduates of electronics engineering and robotics can work in various Lithuanian or other European companies, joint-stock companies, and private companies. The acquired qualification gives the right to work as an engineer in electronics design and production companies, as an engineer of automated-robotic systems in robot integration companies. They can design and work with computer programs for design, data management, electronic systems management, programming, administer network operating systems and use data protection measures, collect and interpret data necessary for decision-making, convey information, ideas, problems and solutions through communication, so this profession are in demand and promising in the modern labor market. Access to further study: Graduates may seek the inclusion of their learning outcomes if they intend to continue studies in the undergraduate study programme of the first cycle at university. Having completed additional studies and having fulfilled the requirements set by the higher educational institution, they have the right to enter the post graduate studies of the second cycle
