National Aviation University

Science intensive technologies for development and modernization of high presicion navigation and control complexes for aviation, marine and space engineering

 

The further development of aviation, rocket-and-space systems, and moving objects of different assignment requires development (modernization) and further implementation of current cybernetic optimal measuring and computing and control complexes.

The following has been developed and implemented at the National aviation university:

· Science intensive technologies of real-world complex scientific and technical problems on development (modernization) and certification of optimal according to criterion of accuracy systems of control, navigation, and stabilization of moving objects;

· Technologies for optimal stabilization of moving objects on assigned flight pass;

  

· Technologies for development and modernization of optimal aerospace flight complex control systems;

· Technologies of multistage optimal stabilization of optic measuring systems at a moving object to determine a target course;

· Technologies for development of inertial systems without platform;

· Technologies for development of optimal stabilization systems of antenna complexes directional diagrams for objects on the ground as well as for objects on moving basis;

· Application packages to develop all the proposed technologies.

Science intensive technologies have been tested in practice based on up to date samples of aviation, space, rocket, and marine engineering, and introduced in the Center for Astronaut Training, at the Antonov Aeronautical Scientific/Technical Complex (Antonov ASTC), Tupolev ASTC, at the State Enterprise Arsenal, Public Corporation Kiev State Plant of Automatics named after G. Petrovskij, and at the research ship Yu.Gagarin.