THE APPEARANCE OF AUTOMATED INFORMATION SYSTEMS FOR PERSONALIZED NOTIFICATION OF AIRCRAFT PASSENGERS IN EMERGENCY SITUATIONS OF HIGH-ALTITUDE FLIGHT
Abstract and keywords
Abstract:
The article presents the results of theoretical and experimental substantiation of the appearance of automated information systems for personalized notification of aircraft passengers in emergency situations of high-altitude flight, implemented on the basis of the concept of cyber-physical systems. Informing about the danger of an emergency is carried out by calculating in real time an estimate of the reserve time for preserving consciousness. The calculated estimate of the reserve time for preserving consciousness is presented to the passengers of the aircraft using visual and / or voice information devices coupled with oxygen masks and / or passenger seats

Keywords:
high-altitude flight emergency, aircraft cabin depressurization, oxygen starvation, aircraft passenger safety, high-altitude flight safety
Text
Text (PDF): Read Download
References

1. Chelovek i bezopasnost' poletov: Nauchno-prakticheskie aspekty snizheniya aviacionnoy avariynosti po prichine chelovecheskogo faktora. M.: Kogito-centr. 2013. 288 s.

2. Shishov A.A., Bogomolov A.V. Fiziologicheskoe obosnovanie adekvatnogo vyhoda iz avariynoy situacii v vysotnom polete // Aviakosmicheskaya i ekologicheskaya medicina. 2020. T. 54. No 2. S. 65-71. EDN: https://elibrary.ru/WGRLCK DOI: https://doi.org/10.21687/0233-528X-2020-54-2-65-71

3. Guziy A.G., Kapustin A.G., Lushkin A.M., Fokin A.V. Metodologiya kolichestvennogo ocenivaniya riska dlya bezopasnosti poletov v samoletnom segmente kommercheskoy aviacii // Nauchnyy vestnik Moskovskogo gosudarstvennogo tehnicheskogo universiteta grazhdanskoy aviacii. 2019. T. 22. No 4. S. 33-42. EDN: https://elibrary.ru/ANZPJS DOI: https://doi.org/10.26467/2079-0619-2019-22-4-33-42

4. Cyber-Physical Systems: Advances in Design & Modelling / Eds by Kravets A.G., Bolshakov A.A., Shcherbakov M.V. Springer, 2019. 340 p.

5. Cyber-Physical Systems: Industry 4.0 Challenges (2019) / Eds by Kravets A.G., Bolshakov A.A., Shcherbakov M.V. Springer, 2019. 334 p.

6. Shumilov B.M., Esharov E.A. Problemy matematicheskogo modelirovaniya kiber-fizicheskih sistem na transporte // Matematicheskie metody v tehnike i tehnologiyah - MMTT. 2020. T. 5. S. 45-48. EDN: https://elibrary.ru/TOWPCF

7. Brown D.E., Abbasi A., Lau R.Y.-K. Predictive Analytics: Predictive Modeling at the Micro Level. IEEE Intelligent Systems. 2015. vol. 30. iss. 3. Rr. 6-8. DOI: https://doi.org/10.1109/MIS.2015.50

8. Aprel'skiy E.N., Kasterskiy S.M., Zamyatin V.G., Kurenkov A.S. Matematicheskaya model' pnevmomehanicheskogo regulyatora davleniya bortovyh sistem kislorodnogo pitaniya vozdushnyh sudov // Problemy bezopasnosti poletov. 2015. No 1. S. 21-30. EDN: https://elibrary.ru/TFQCTN

9. Ushakov I.B., Chernyakov I.N., Shishov A.A. Fiziologiya vysotnogo poleta. M., 2007. 147 c. EDN: https://elibrary.ru/RUXZNC

10. Kukushkin Yu.A., Dvornikov M.V., Bogomolov A.V., Shishov A.A., Suholitko V.A., Simonenko A.P., Stepanov V.K. Osobennosti podderzhki prinyatiya resheniy po ustraneniyu osobyh sobytiy i opasnyh sostoyaniy letchika v vysotnom polete // Problemy bezopasnosti i chrezvychaynyh situaciy. 2009. No 6. S. 74-79. EDN: https://elibrary.ru/MGULMX

11. Zamyatin V.G., Kasterskiy S.M., Kukushkin Yu.A., Chernuha V.N. Sintez upravleniya davleniem gaza v bortovyh kislorodnyh sistemah // Informacionno-izmeritel'nye i upravlyayuschie sistemy. 2017. T. 15. No 10. S. 9-14. EDN: https://elibrary.ru/ZTENWV

12. Markov N.A., Bogomolov A.V., Shishov A.A., Dvornikov M.V. Tehnologiya personificirovannogo informirovaniya o potencial'noy opasnosti chrezvychaynoy situacii v vysotnom polete // Matematicheskie metody v tehnike i tehnologiyah - MMTT. 2020. T. 7. S. 76-79. EDN: https://elibrary.ru/BKZMZB

13. Kukushkin Yu.A., Bogomolov A.V., Dvornikov M.V., Kislyakov Yu.Yu., Ryzhenkov S.P. Raschet riska poteri rabotosposobnosti chelovekom v usloviyah nizkogo barometricheskogo davleniya // Polet. Obscherossiyskiy nauchno-tehnicheskiy zhurnal. 2012. No 11. S. 37-45. EDN: https://elibrary.ru/PUPSKV

14. Kasterskiy S.M., Har'kov V.P. Minimizaciya poter' gaza v zadache regulirovaniya davleniya po zadannomu zakonu // Informacionno-izmeritel'nye i upravlyayuschie sistemy. 2018. T. 16. No 1. S. 52-57. EDN: https://elibrary.ru/YQCYIC

15. Zamyatin V.G., Kasterskiy S.M., Har'kov V.P., Chernuha V.N. Sintez elementnoy bazy cifrovoy bortovoy kislorodnoy sistemy // Informacionno-izmeritel'nye i upravlyayuschie sistemy. 2016. T. 14. No 7. S. 18-27. EDN: https://elibrary.ru/WHTOLV

16. Plotnikov N.I. Gipoksiya (kislorodnoe golodanie): analiticheskiy obzor // Problemy bezopasnosti poletov. 2009. No 11. S. 12-17. EDN: https://elibrary.ru/KYOEDJ

17. Agadzhanyan N.A., Polunin I.N., Stepanov V.K., Polyakov V.N. Chelovek v usloviyah gipokapnii i giperkapnii. Astrahan'-Moskva.: Izd. AGMA, 2001. 340 s. EDN: https://elibrary.ru/VZIMGR

18. Gridin L.A. Sovremennye predstavleniya o fiziologicheskih i lechebno-profilakticheskih effektah deystviya gipoksii i giperkapnii // Medicina. 2016. T. 4. No 3 (15). S. 45-68. EDN: https://elibrary.ru/WMFKHN

19. Bogomolov A.V., Kukushkin Yu.A., Dvornikov M.V. Matematicheskoe modelirovanie dinamiki gipoksicheskih sostoyaniy cheloveka // Programmnye produkty i sistemy. 2013. No 2. S. 40. EDN: https://elibrary.ru/QOVIMX

20. Kukushkin Yu.A., Dvornikov M.V., Bogomolov A.V., Matyushev T.V., Polyakov A.V. Matematicheskoe obespechenie riskometrii sostoyaniy cheloveka v ekstremal'nyh i avariynyh situaciyah, sopryazhennyh s gipoksicheskim vozdeystviem // Bezopasnost' zhiznedeyatel'nosti. 2012. No 10 (142). S. 25-33. EDN: https://elibrary.ru/PEZDAH

21. Markov N.A., Filatov V.N. Kompleks tehnicheskih sredstv avtomatizirovannogo opovescheniya ob opasnostyah chrezvychaynyh situaciy vysotnyh poletov // Problemy bezopasnosti poletov. 2020. No 7. S. 42-48. EDN: https://elibrary.ru/AIIKJS DOI: https://doi.org/10.36535/0235-5000-2020-07-4

22. Markov N.A. Kislorodnaya maska dlya passazhirov vozdushnogo sudna. Patent na izobretenie RU No 2722489. Zayavl. 11.11.2019. Opubl. 01.06.2020 Byul. No 16. DOI: https://doi.org/10.1055/a-0810-4224

23. Markov N.A. Aviacionnoe passazhirskoe kreslo s informatorom o potencial'noy opasnosti chrezvychaynoy situacii vysotnogo poleta. Patent na izobretenie RU No 2729319. Zayavl. 02.03.2020. Opubl. 06.08.2020 Byul. No 22. DOI: https://doi.org/10.1055/s-0040-1718621

24. Markov N.A. Sistema personificirovannogo opovescheniya ob opasnosti chrezvychaynoy situacii v vysotnom polete. Patent na izobretenie RU No 2717738. Zayavl. 25.11.2019. Opubl. 25.03.2020.

Login or Create
* Forgot password?