ORGANIZATION OF DISTRIBUTED INFORMATION SYSTEMS THE AVIATION GAS TURBINE ENGINE
DOI:
https://doi.org/10.18372/1990-5548.61.14210Keywords:
automatic control system, aviation gas turbine engine, distributed system, nets models, bandwidthAbstract
The article deals with the method of distributed information systems organization the aviation engine, which is considered as a interaction of the components of the automatic control system in its technological activity. Due to the use of the ZigBee interface communication, the research of the electronic control system according to the given index of transitive packet has been carried out and the distributed control system usage of the aviation engine has been proposed. Through the simulation, the dependences of the quality the transmission packet request on the parameters of the maximum flow the distributed net for closed systems with switching bandwidth were revealed; detected dependencies can be used to form a mathematical model of replacing two-way flow and one-way flow information transmission to configure gas turbine engine distributed net from the condition of fulfilling the specified switching bandwidth.
References
CIAM – Central Institute of Aviation Motors named after I. P. Baranov. Access mode: http://www.ciam.ru/.
O. S. Gurevich, “Automatic control systems of aviation gas turbine engines,” Toru Press, Мoscow, 2010, 264 p. (in Russian). ISBN: 978-5-94588-090-0
XBee OEM RF Modules-ZigBee. Access mode: http://www.farnell.com/datasheets/27606.pdf.
S. S. Tovkach and Ye. O. Shkvar, “Microelectronic systems as innovation management tool of complex technical systems and perspectives of its using,” Science and Technology of the Air Forces of Ukraine. 2015, 4(17), pp. 136–140. (in Ukrainian).
Access mode (URL):
http://www.hups.mil.gov.ua/periodic-app/article/16823
Kenneth P. Birman, “Guide to Reliable Sistributed Systems,” Springer, 2012, 730 p. ISBN-13: 978-1447124153
Laine Campbell, “Database Reliability Engineering: Designing and Operating Resilient Database Systems,” O'Reilly Media, 2017, 294 p. ISBN-13: 978-1491925942
Andrew S. Tanenbaum, “Distributed Systems: principles and paradigms,” CreateSpace Independent Publishing Platform, 2016, 702 p. ISBN-13: 978-1530281756
V. P. Zakharchenko, S. V. Yenchev, S. S. Tovkach, and S. S. Ilenko, “System efficiency of programmed operation of avionics,” Monograph, 2018, 192 p. (in Ukrainian). ISBN: 978-906-932-087-2.
S. S. Tovkach, “Power Fuzzy Approach For Decision Making Support in the Adaptive Control System of the Aviation Engine,” Proceedings of the IEEE 5th International Conference MSNMC-2018, pp. 242–246. DOI: 10.1109/MSNMC.2018.8576286
S. S. Tovkach, “Self-similarity of Operating Modes of Aviation Engine with the use of Wireless Data Transmission,” Advances in Science and Technology Research Journal, 2019, 13(2), pp. 176–185. DOI: 10.12913/22998624/105887.
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