Научная электронная библиотека ULRICH'S Periodicals Directory

Сибирский государственный университет
науки и технологий имени академика М.Ф. Решетнева

Сибирский аэрокосмический журнал
ISSN 2712-8970 (Print) ISSN 2782-5760 (on-line)

Сведения об образовательной организации

UDK 629.78; 004.94
DESIGNING AND CONSTRUCTING OF THE PROGRAM-MATHEMATICAL MODEL FOR THE SPACECRAFT COMMAND AND MEASURING SYSTEM
L. F. Nozhenkova, O. S. Isaeva, E. A. Gruzenko
Institute of computational modelling SB RAS 50/44, Akademgorodok, Krasnoyarsk, 660036, Russian Federation E-mail: expert@icm.krasn.ru
The functional scheme, tasks and programming strategy for designing the program-mathematical model of the spacecraft command-measuring systems are considered. The model purpose is to support the space-system engineering and testing the onboard hardware by the information technologies and mathematical modeling. The functional tasks and principles of the model software are proposed. The model architecture is a software package that allows to simulate and to analyze the hardware structure and functions by using the information, simulation, graphical and analytical methods. The model contains the tools for the graphical representation of all stages of command and telemetry packets transmission. Simulation model allows reproducing the work of the real system, without the presence of onboard equipments of the command-and-measuring system. The program-mathematical model will be used in the designers work simplification. Also it will be used for executing the verification tests and in the training mode – to solve teaching and research tasks.
program and mathematical model, spacecraft, command and measuring system, simulation modeling, telecommand and telemetry packets.
References

1. Borovkin A. G, Burdigov B. G., Gordiiko S. V. Bortovie sistemy upravleniya kosmicheskimi apparatami [Onboard control systems of spacecrafts]. Moscow, MAI-PRINT Publ., 2010, 304 p.

2. Razrabotka komandno-izmeritelynoi sistemi dlya perspectivnikh KA na baze platformy «Express-4000» [Development of command-measuring system for per-spective KA on the basis of the «Express-4000» plat-form]. Zheleznogorsk, 2012.

3. Gavrilova T. A., Xoroshevskiy V. F. Basi znaniy intellectualnih sistem [Knowledge of bases of the intellec-tual systems]. Saint Petersburg, Peter Publ., 2001, 384 p.

4. Packet Telecommand Standard (ESA PSS-04-107). Issue 2, European space agency (ESA). 1992, 166 p.

5. Packet Telemetry Standard (ESA PSS-04-106). Is-sue 1, European space agency (ESA), 1988, 73 p.

6. Vogorovskiy R. V., Gruzenko E. A., Koldirev A. Yu. [Modeling protocols of telecommand and telemetry]. Materialy XIII Vserossiyskoy konferencii “Problemy infor-matozatsii regiona” [Proceedings of XIII All-Russian scientific-practical conference “Problems of Informatization of the region”]. Krasnoyarsk, ICM SB RAS Publ., 2013, p. 37–42. (In Russ.)


Nozhenkova Ludmila Fedorovna – Doctor of engineering sciences, Professor, Head of the Department of Applied Informatics, Institute of computational modelling Siberian Branch of Russian Academy of Science. E-mail: expert@icm.krasn.ru.

Isaeva Olga Sergeevna – Candidate of Engineering Science, Senior researcher, Institute of computational modeling Siberian Branch of Russian Academy of Science. E-mail: isaeva@icm.krasn.ru.

Gruzenko Evgeny Andreevich – postgraduate student, Institute of computational modelling Siberian Branch of Russian Academy of Science. E-mail: Gruzenko@icm.krasn.ru