The training in this area is based on the study of modern information technologies (machine learning and neurotechnologies, methods of processing big data, high-performance programming technologies, etc.) and practical programming in high-level languages (C ++, Python). These skills are used to create control systems for complex technical objects, develop artificial intelligence systems, robotic systems, information security and cybersecurity systems, create automated control systems in the interests of general mechanical engineering, aviation and astronautics, transport and other science-intensive industries.
The number of thematic issues under consideration includes both the design tasks of control systems for traditional "ground" means of various purposes, and control systems for space and unmanned aerial vehicles, transport systems intended for use in various difficult operating conditions, in particular on the surface of the Moon and planets of the Solar system. ... The field of application of the acquired knowledge covers a wide range - from automation systems for various technological processes in mechanical engineering to flight control systems for spacecraft in near-earth space and avoidance of collisions with space debris, solving transport problems to ensure the functioning of long-term orbital stations, technical bases and settlements on the Moon. and the planets of the solar system.
Within the framework of this direction of training, training is carried out in the field of innovative management in various science-intensive industries.