The model of operation of spacecraft board computer systems with request categorization taking into account hardware and software faults

1Kharchenko, VS, 2Gridin, Yu.V
1I. Kozhedub Kharkiv Air Force University, Kharkiv, Ukraine
2Kozhedub Kharkiv Air Force University, Kharkiv, Ukraine
Kosm. nauka tehnol. 1999, 5 ;(5):103–109
Publication Language: Russian
The model of fault-tolerant board computer system with request categorization (CSRC) is studied with different kinds of hardware and software faults are researched taken into account. The structure and different variants of technical realization of CSRC elements are proposed.
Keywords: board computer systems, hardware and software, space instruments
1. Timon'kin G. N., Dmitrov D. V., Tkachenko S. N., Kharchenko V. S. Ustrojstvo dlja raspredelenija zadanij processoram: A. s. 1524052 SSSR, MKI G06F9/46; published 24.03.1988, Bull. No. 43 [in Russian].
2. Kharchenko V. S. , Tkachenko V. A., Timon'kin G. N., et al. Mnogoprocessornaja rezervirovannaja sistema: A. s. 1653448 SSSR, MKI G06F11/18, H05K10/00; published 03.07.1989, Bull. No. 11 [in Russian].
3. Kharchenko V. S. , Bek A. V., Chernyshev M. A., et al. Rezervirovannaja vychislitel'naja sistema: A. s. 1753476 SSSR, MKI GOF15/16; published 23.01.1990, Bull. No. 29 [in Russian].
4. Tkachenko V. A., Timon'kin G. N., Kharchenko V. S., et al. Trehkanal'naja rezervirovannaja sistema: A. s. 1819116 SSSR, MKI H05K10/00, G06F11/18; published 18.09.89, Bull. No. 20 [in Russian].
5. Geninson B. A., Pankova L. A., Trahtengerts E. A. Failure-proof methods of providing mutual information-wise coordination in distributed computing systems. Avtomat. i Telemekh., No. 5, 3–18 (1989) [in Russian].
6. Gridin Y. V., Kharchenko V. S. Analysis of measurement information in fault-tolerant board telemetering systems with request categorization. Kosm. nauka tehnol., 5 (1), 69–73 (1999) [in Russian].
7. Kleinrock L. Communication Nets: Stochastic Message Flow and Delay, 256 p. (Nauka, Moscow, 1970) [in Russian].
8. Kleinrock L. Theory of mass service, Transl. from Eng., ed. by V. I. Nejman, 432 p. (Mashinostroenie, Moscow, 1979) [in Russian].
9. Kleinrock L. Computing system with  queues, 600 p. (Mir, Moscow, 1979) [in Russian].
10. Lobanov A. V. Mutual Information Consistency Accompanied by Fault Identification on the Basis of the Global Syndrome. Avtomat. i Telemekh., No. 5, 150—159 (1996) [in Russian].
11. Lobanov A. V. Metod raspredelennogo mazhorirovanija informacii s obnaruzheniem i identifikaciej projavlenij neispravnostej. Zarubezhnaja radiojelektronika. Uspehi zarubezhnoj radiojelektroniki, No. 6 (1997) [in Russian].
12. Mikeladze M. A. Development of basic self-diagnosis models for complex engineering systems. Avtomat. i Telemekh., No. 5, 3–18 (1995) [in Russian].
13. Sogomonyan E. S., Slabakov E. V. Self-Testing Devices and Fault-Tolerant Systems, 208 p. (Radio i Svyaz', Moscow, 1989) [in Russian].
14. Kharchenko V. S. Theoretical Principles of Fault-Free Digital Systems with Multiversion Redundancy, 502 p. (Kharkov Military University, Kharkov, 1996) [In Russian].
15. Kharchenko V. S. Choice of design technologies and basic architectures for the defect-tolerant digital control and computing real-time systems. Kosm. nauka tehnol., 3 (5-6), 109–119 (1997) [in Russian].

16. Kharchenko V. S., Blagodarny M. P. Organization of multi alternative calculations in digital computing systems of aircraft and systems. Nauka i oborona, No.3, 153—161 (1994) [in Ukrainian].