215 research outputs found
Algorithmic means implementing requirements reliability entering information into the onboard control computing system in rocket "SOYUZ-2"
Рассмотрены предъявляемые требования по надежности к режиму ввода программного обеспечения в бортовую цифровую вычислительную систему ракеты-носителя «Союз-2». Произведен анализ существующих программно-алгоритмических средств обеспечения предъявленных требований по надежности. Из-за большого количества используемых элементов и возрастания объемов хранимой информации возникает ряд проблем связанных с реализацией надежного ввода. Основные проблемами в данном режиме это большая вероятность возникновения двух кратных искажений информации и внешнее воздействие на линии связи. В связи с этим представлены доработанные программно-алгоритмические средства обеспечения надежности режима ввода программного обеспечения, с учетом особенностей и возможностей бортовой цифровой вычислительной системы ракеты-носителя «Союз-2», существенно повысившие надежность режима ввода и системы в целом.Discussed requirements to in terms of reliability to the input mode software onboard digital computer system rocket "Soyuz-2". The analysis of existing software and algorithmic means to ensure demand under reliability. Due to the large number of elements used and increasing volumes of stored information, a number of problems associated with the implementation of a reliable input. The main problem in this mode is a large probability of two multiple misstatements and external influence on the link. In this regard, presented the modified software and algorithmic means of securing the input mode information, taking into account the characteristics and capabilities of the onboard digital computer system carrier rocket "Soyuz-2", will significantly increase the reliability of the input mode and the system as a whole
The physical-mechanical and electrical properties of cast aluminum-based alloys reinforced with diamond nanoparticles
The results obtained from investigations into the microstructure and physical-mechanical and electrical properties of cast aluminum-based alloys reinforced with nanodiamonds are presented. Addition of the diamond nanoparticles is shown to change the structural parameters and improve the mechanical properties of the materials.The work was financed by the Ministry of Education and Science of the Russian Federation within the Federal
Target Program “Scientific and Scientific-Pedagogical Personnel of Innovative Russia” for 2014–2020 (Agreement № 14.578.21.0025, UID RFME157814X0025) and the Program to Improve the Competitiveness of Tomsk State University among the World Leading Research and Education Centers
Influence of deformation on the structure and mechanical and corrosion properties of high-nitrogen austenitic 07Kh16AG13M3 steel
Peculiarities of the formation of multicomponent AlN-TiB2-TiSi2 composite ceramics coatings during heat treatment
Certain regularities in the strength of soft-fiber reinforced plastics with two-component warps
The effect of stretching rate on the strength of soft reinforced plastics with two-component bases
On a long term static strength of soft fiber-reinforced plastics on one-and two-component bases
An estimate of the interaction between matrix and fibers in a unidirectional composite material under tension
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