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Aircraft Systems Engineering
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Summary of the Profile
General Description:
Objective(s) of a study programme:
Train specialists in the field of aeronautical engineering, who are able to qualitatively solve the engineering tascs of aircraft mechanical and avionic systems, applying theoretical knowledge and methodologies corresponding to technological progress in a constantly changing environment and striving for professional development.
Learning outcomes:
• Know the general regularities and laws of mathematics, physical and/or technological sciences, allowing to understand and describe the processes taking place in the field of aeronautical engineering studies.
• Know the most important concepts in the aeronautical engineering field corresponding to the study program Aircraft system engineering and understand their content.
• To acquire basic and up-to-date knowledge of the study field of aeronautical engineering sciences that can be applied in practice.
• Be familiar with the principles of digital production, cloud production processes, Internet of things, business management systems and augmented reality.
• Be able to analyse the processes and products in the aeronautical engineering sciences, understand and interpret the obtained results.
• Be able to solve the engineering tasks of aircraft system engineering by choosing the appropriate methods, experimental and production equipment.
• Understand design methodologies, be able to apply specialized software for process analysis and data management, designing processes and products in the aeronautical engineering field according to the established technical, economic and environmental requirements.
• Be able to find the necessary professional information using databases and other sources of scientific and engineering information.
• Be able to implement the necessary experiments for the engineering tasks of the aircraft system, process their results and present practical conclusions of these results.
• Have skills working with the equipment used in the field of aeronautical engineering sciences.
• Be able practically solve the problems in the field of aeronautical engineering sciences.
• Be able to participate in working groups, implementing projects in the field of aeronautical engineering sciences, taking into the account the principles of circular economy, artificial intelligence, industrial digitization, ethical, environmental protection, commercial, activity organization, worker safety and health circumstances, and the development of the concept of sustainability.
• Be able to cooperate with specialists of other professional activities.
• Be able to solve engineering tasks independently and in a team.
• Be able to communicate with the engineering community and the general society in correct Lithuanian and at least one foreign language.
• Understand the impact of engineering decisions on society and the environment, adhere to professional ethics and norms of engineering activity, understand responsibility for the results of engineering activity.
• Know the main aspects of project execution and management at the level of engineering activities.
• Understand the importance of individual lifelong learning and prepare for it.
Activities of teaching and learning:
Student-oriented teaching applying innovative teaching and learning methods.
Methods of assessment of learning achievements:
Learning achievements assessment is carried out during the semester and examination session. Cumulative assessment system is applied and learning achievements are assessed by interim assessments. Examination or course paper presentation is applied during examination session. Ten grade scale system is applied. Final grade consists of interim and examination grades. Final grade is calculated according to the proportions foreseen in the subject description.
Framework:
Study subjects (modules), practical training:
Scope of general collegial subjects – 15 credits.
Foreign Language 1 (English/German), Foreign Language 2 (English/German), Aviation Law, Philosophy/Sociology/ Situation Management Psychology, Business Economics and Management/Project Management
Scope of core and compulsory subjects – 141 credits.
Mathematics 1, Mathematics 2, Physics, Information Technologies, Aviation Materials, Engineering Graphics and Computer-Aided Drawing, Non-Destructive Control Technologies 1, Aircraft Functional Systems/Microprocessors, Mechanics, Fundamentals of Electrical Engineering and Electronics, Environmental and Human Safety, Aircraft Structures, Non-Destructive Control Technologies 2, Aircraft Engines and Fuel Systems/ Aircraft Computer Systems, Fundamentals of Aerodynamics, Aircraft Propellers/Programmable Logic Devices, Helicopters/Wireless Communication and Antennas, Human Factor in Aviation Engineering, Semester Work I, Semester Work II, Aircraft Navigation Systems, Professional Bachelor Graduation Thesis.
Internships:
Introductory Training, Aircraft Technology Internship, Final Internship
Specialisations:
Specialization I. Aircraft Maintenance of Mechanisms
Aircraft maintenance and repair of mechanical units, Gliders, Aircraft Hydraulic and Pneumatic Systems
Specialization II. Aircraft Electronic Equipment Maintenance
Aircraft Electronic Equipment Maintenance and Repair – Avionics, Unmanned Aerial Vehicles, Avionics Systems
Optional courses:
Possibility to choose subjects (modules) of different area.
Distinctive features of a study programme:
Study programme is oriented towards both - the development of professional special competences and general skills and values.
Access to professional activity or further study:
Access to professional activity:
Graduates who are awarded Aeronautical engineering professional bachelor's degree can work in aircraft or helicopter repair and maintenance companies, in airports and their departments and other enterprises that require mechanical and avionic engineers and technicians.
Access to further study:
