Abstract
An analysis is made of the methodological foundations for setting up a system of procedures for preventing failures of complex technical objects during their operation.
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References
A. S. Pronikov, General Methodological Approach to Estimating the Reliability of Machines. Scientific Fundamentals of Progressive Engineering and Technology [in Russian], Mashinostroenie, Moscow (1986).
S. V. Butushin, F. I. Kovalev, and A. A. Lisov, Control and Monitoring of Technological Processes of Manufacturing Components for Space Technology, Proceedings of the RNTK [in Russian], K. É. Tsiolkovskii Aviation and Technological Institute, Moscow (1994), p. 21.
L. I. Belova and A. A. Lisov, Papers Presented at the Scientific and Technical Conference Dedicated to 50 Years of the K. É. Tsiolkovskii Aviation and Technological Institute in Moscow [in Russian], K. É. Tsiolkovskii Aviation and Technological Institute, Moscow (1982), p. 62.
Yu. K. Kogge, Fundamentals of the Reliability of Aviation Technology [in Russian], Mashinostroenie, Moscow (1993).
L. N. Aleksandrovskaya, A. A. Lisov, and T. A. Chernova, Nadezhn. Kontrol' Kachestv, No. 5, 34 (1994).
A. P. Afanas'ev et al., New Materials and Technologies – 98 [in Russian], K. É. Tsiolkovskii Aviation and Technological Institute, Russian State Technical University, Moscow (1998), p. 58.
V. S. Makhalevich and V. L. Volkovich, Computer Methods for Investigating and Designing Complex Systems [in Russian], Nauka, Moscow (1982).
A. A. Lisov, Mathematical Support for Problems of Standardization and Quality, Scientific Proceedings of the VNIIS, No. 34 [in Russian], Moscow (1978), p. 63.
S. V. Butushin, F. I. Kovalev, and A A. Lisov, Scientific Proceedings of the K. É. Tsiolkovskii Aviation and Technological Institute, Moscow, No. 1 (73) [in Russian], LATMÉS, Moscow (1998), p. 56.
A. P. Afanas'ev et al., Avtom. Proekt., No. 2, 42 (1999).
A. A. Lisov et al., Prib. Sistem. Upravl., No. 5, 36 (1994).
E. Yu. Barzilovich and V. F. Voskoboev, Operation of Aviation State Systems [in Russian], Transport, Moscow (1981).
Yu. N. Nechaev (ed.), Theory of Aviation Engines [in Russian], Veonizdat, Moscow (1980).
L. P. Lozitskii, A. K. Yanko, and V. F. Latnov, Estimation of the Technical State of Aviation Gas-Turbine Engines [in Russian], Transport, Moscow (1982).
N. N. Teplenkov et al., Authors' Patent Certificate No. 1117750 USSR, Otkryt. Izobret., No. 37, (1984).
V. Ya. Ishcheinov and A. A. Lisov, Material from the All-Union Conf. on the Application of Microelectronics and Robot Technology in Agriculture [in Russian], Moscow, Riga (1985), p. 124.
L. A. Rastrigin, Extremal Control Systems [in Russian], Nauka, Moscow (1974).
L. N. Aleksandrovskaya, A. A. Lisov, and V. V. Smirnov, Met. Menedzh. Kachestv., No. 2, 26 (1999).
A. P. Afanas'ev et al., Informats. Technolog., No. 8, 48 (1997).
A. A. Lisov et al., Authors' Patent Certificate No. 158634 USSR, Otkryt. Izobret., No. 32, (1992).
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Lisov, A.A. Methodological Foundations for the Prevention of Technical Failures. Measurement Techniques 44, 449–454 (2001). https://doi.org/10.1023/A:1012345800522
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DOI: https://doi.org/10.1023/A:1012345800522