ON-1 (PO-01). Communicate effectively orally and in writing, including in a foreign language, in a professional environment and society, form and reasonedly defend one’s own point of view, ideological and civic position in interpersonal interaction and an intercultural environment.

ON-2 (RO-02). Demonstrate and apply basic mathematical, natural science, humanities, socio-economic and legal knowledge in an interdisciplinary context to solve engineering problems in the professional field.

ON-3 (RO-03). Possess the basics of economic knowledge, have a scientific understanding of management, marketing, finance, know and understand the goals and methods of government regulation of the economy, the role of the public sector in the economy.

ON-4 (RO-04). Demonstrate the ability for self-organization, self-education and professional improvement, critical reflection of accumulated experience. Know the methods and methods of planning and organizing production and compliance with safety, labor protection and environmental regulations. Demonstrate the ability to apply the rules and regulations of industrial and environmental safety, industrial sanitation, fire safety and labor protection.

ON-5 (RO-05). Use various types of information and communication technologies in professional activities: Internet resources, cloud and mobile services for searching, storing, processing, protecting and distributing information

ON-6 (RO-06). Demonstrate basic knowledge in the field of special disciplines and a willingness to use the acquired knowledge in professional activities, apply methods of mathematical analysis and modeling, theoretical and experimental research.

ON-7 (RO-07).  Demonstrate the ability to acquire new, expand and deepen previously acquired knowledge, skills and competencies in various areas of life, necessary for successful implementation in the field of professional activity, including at the intersection of different areas of activity and fields of science.

ON-8 (RO-08). Conduct engineering calculations using standard methods and design individual parts and assemblies using standard design automation tools in accordance with the technical specifications.

ON-9 (RO-09). Possess the basics of satellite radio communications and communication systems, understanding methods for designing highly effective stabilization systems. Have a thorough understanding of the various functions of onboard systems and the ability to analyze their interactions on spacecraft. Master the skills of practical application of acquired knowledge.

ON 10 (RO-10). Know about different types of engines, including aircraft, rocket, liquid propellant, ion plasma, and solid propellant engines, and be able to analyze and select the most appropriate engines for various missions. Master the skills of synthesis and parameter estimation.

ON 11 (RO-11). Possess an understanding of intelligent robotic systems, space missions and astroinformatics. Also be able to effectively synthesize innovative solutions for the implementation of space projects. Systematically analyze complex problems, highlight key aspects, and provide critical assessment in the design and implementation of space missions.

ON 12 (RO-12). Possess knowledge of aerodynamics, flight dynamics, mathematical physics, energy-intensive materials chemistry, measurements and standards. Also be able to critically analyze, objectively evaluate, and systematically solve complex problems related to aerospace sciences