Д.В. Павлов, Д.С. Петров

14

Инженерный журнал: наука и инновации

# 8·2016

Optimization of calculation algorithm for models developed

with a method based on three-stage decomposition

© D.V. Pavlov, D.S. Petrov

S.P. Korolev Rocket and Space Public Corporation Energia,

Korolev, 141070, Russia

The article considers the development of service systems computer models on board the

spacecraft. We describe existing approaches to computer modeling, their features for

such technical systems; propose a new approach which, firstly, allows us to consider the

various physical interactions that occur in the system, secondly, to structure the model

and, thirdly, to present it as a uniform element set. The study suggests the algorithm that

makes it possible to build a software representation of the state vector and propose set-

tlement functions of the system under study, based on a formal description of its model,

made in accordance with the described approach to modeling. On the base of the algo-

rithm we developed a computer program. The study estimates the computer program

speed and the possibility of using an original approach to modeling service systems on

board the spacecraft in order to inform spacecraft flight control and describes the

measures to further performance improving

.

Keywords:

computer modeling, simulation, modeling language, spacecraft thermal con-

trol system, three-stage decomposition, customizable model

.

REFERENCES

[1] Solovev V.A., Lysenko L.N., Lyubinskiy V.E.

Upravlenie

kosmicheskimi

poletami

[Mission control]. Moscow, BMSTU Publ., 2009, 902 p.

[2] Kravets V.G.

Avtomatizirovannye sistemy upravleniya kosmicheskimi poletami

[

Automated mission control system]

. Moscow, Mashinostroenie Publ., 1995.

[3] Mikrin E.A.

Bortovye kompleksy upravleniya kosmicheskikh apparatov

[O

n

board spacecraft control systems].

Moscow, BMSTU Publ., 2014, 245 p.

[4] Trudonoshin V.A.

Modelirovanie sistem s sosredotochennymi parametrami

[M

odeling of systems with lumped parameters].

2008. Available at:

http://bigor.bmstu.ru/?cnt/

?doc=BaseCourse (accessed June 5, 2016).

[5] Aksenov A.A., Dyadkin A.A., Moskalev I.V.

Kosmicheskaya tekhnika i

tekhnologii — Space technics and technologies

, 2015, no. 2, pp. 39–50.

[6] Alabova N.P., Bryukhanov N A., Dyadkin A.A. et al.

Kosmicheskaya tekhnika i

tekhnologii — Space technics and technologies

, 2014, no. 3, pp. 14–21.

[7] Antonov F.K., Makarovskaya A.V., Papchenko V.V., Shaenko

A.Yu.

Vestnik

MGTU im. N.E. Baumana. Seriya Mashinostroenie — Herald of the Bauman

Moscow State Technical University. Series Mechanical Engineering

,

2015, no. 1,

pp. 49–55.

[8] Paynter H.

Analysis and design of engineering systems

. Cambridge, MIT Press

Publ., 1961, 303 p.

[9] Mukherjee A., Samantaray A.K.

Bond graph in modeling, simulation and fault

identification

. New Delhi, India, I.K. International Pvt. Ltd. Publ., 2006, 512 p.

[10] Petrov D.S.

Vestnik Moskovskogo Aviatsionnogo Instituta

—

Herald

of Moscow

Aviation Institute

,

2014, vol. 21, no. 1, pp. 43–57.

[11] Pavlov D.V., Petrov D.S.

Vestnik Moskovskogo Aviatsionnogo Instituta

—

Herald

of Moscow Aviation Institute

,

2015, vol. 22, no. 2, pp. 42–54.