Unmanned Aerial Vehicles

6.134.00.01 Unmanned Aerial Vehicles
Qualification awarded: Bachelor's degree in Aviation and Rocket and Space Engineering with a specialisation in Unmanned Aerial Vehicles
Entry year: 2024
Mode of study: full
Program duration: 4 years
Institute: Institute of Mechanical Engineering and Transport
Number of credits: 240
Level of qualification according to the National Qualification Framework and the European Qualifications Framework: NQF Level 6 (First cycle of QF-EHEA / EQF Level 6)
Field(s) of study: Mechanical engineering
Specific admission requirements: none
Characteristics of the educational program: Objects of study - phenomena and problems associated with the stages of the life cycle of aviation and rocket and space technology. Learning objectives - training of specialists capable of solving complex specialised and practical problems related to the development, production and certification of aviation and rocket and space technology, its engines and power plants, structures and systems, characterised by complexity and uncertainty of conditions. Theoretical content of the subject area - theoretical foundations of the development and production of objects and technologies of aviation and rocket and space technology. Methods, techniques and technologies - analytical, numerical and experimental methods for studying the problems of the subject area, including integrated computer technologies, methods and technologies related to the stages of the life cycle of aviation and rocket and space technology. Instruments and equipment - laboratory equipment with measuring instruments, including hydraulic benches, wind tunnels, equipment for studying the properties of materials, the stress-strain state of structures; tools and equipment for studying the design of aircraft, helicopters, rocketry, engines and power
Програмні результати навчання: PO01. Communicate fluently orally and in writing in the state and foreign languages on professional issues. PLO03. Understand the environmentally hazardous and harmful factors of professional activity and adjust its content to prevent negative impact on the environment. PLO 04. To master the means of modern information and communication technologies to the extent sufficient for study and professional activity. PLO05. Explain their decisions and the basis for their adoption to specialists and non-specialists in a clear and unambiguous manner. PLO 06. Possess the skills of independent learning and autonomous work to improve professional skills and solve problems in a new or unfamiliar environment. PLO07. To formulate reasonable assessments of the actions of state bodies and other political institutions from the standpoint of universal, democratic values, the priority of human and civil rights and freedoms. PLO08. Possess the logic and methodology of scientific knowledge based on an understanding of the current state and methodology of the subject area. PLO 09. To comply with the requirements of industry regulations on the procedures for the design, manufacture, testing and (or) certification of elements and objects of aviation and rocket and space technology at all stages of their life cycle. PLO 10. Explain the influence of design parameters of aircraft and rocket and space technology elements on its flight characteristics. Have an understanding of the methods of ensuring the stability and controllability of aviation and rocket and space technology. PO11. To have the skills to determine the loads on the structural elements of aviation and rocket and space technology at all stages of its life cycle. PLO 12. Understand the principles of fluid and gas mechanics, in particular, hydraulics, aerodynamics (gas dynamics). PLO 13. Describe the structure of metals and non-metals and know the methods of modifying their properties. To select the best materials for elements and systems of aviation and rocket and space technology, taking into account their structure, physical, mechanical, chemical and operational properties, as well as economic factors. К15. Knowledge of work processes in systems and elements of aviation and rocket and space technology. К17. Basic knowledge in the field of hydraulic, pneumatic, electrical and electronic systems used in aviation and rocket and space technology. PLO 14. Describe experimental methods for studying the structural, physical, mechanical and technological properties of materials and structures. PLO 15. To apply in professional activities modern methods of design, construction and production of elements and systems of aviation and rocket and space technology. PLO 16. Calculate the stress-strain state, determine the load-bearing capacity of structural elements and the reliability of aviation and rocket and space technology systems. PLO17. Understand and justify the sequence of design, manufacture, testing and (or) certification of elements and systems of aviation and rocket and space technology. PO18. Understand the structure and principles of operation of onboard and navigation equipment of aircraft and rocket and space technology. PLO 19. To understand and justify the design features and main aspects of work processes in systems and elements of aviation and rocket and space technology. PLO 20. Understand the theoretical principles and practical methods of instrumental support for the interchangeability of parts of aviation and rocket and space technology. PLO21. Have the skills to develop technological processes, including the use of automated computer-aided design for the production of structural elements and systems of aviation and rocket and space technology. PLO 22. To evaluate the economic efficiency of the production of elements and systems of aviation and rocket and space technology.
Academic mobility: Ability to continue training on the educational program of the second (master's) level of higher education and acquire additional qualifications in the adult education system.
Work placement(s): Production sectoral practice. Practice on bachelor's qualification work.
Programme director: Maksymovych O.V.
Occupational profiles of graduates: Jobs in the public and private sectors of the economy in various fields of activity. The Bachelor of Aviation and Rocket and Space Engineering with a degree in Unmanned Aerial Vehicles is prepared for employment and professional work in the types of economic activity according to the classification of professions DK 003:2010 related to the performance of professional activities in design, engineering, production, control, organisational, managerial, operational, service, research and development at enterprises and organisations in various fields of activity.
Access to further studies: Obtaining the second (master's) level