Electronic assistant to the chief of fire staff
DOI:
https://doi.org/10.33408/2519-237X.2024.8-2.168Keywords:
fire rescue vehicle, tanker truck, communicationsAbstract
Purpose. Experimental determination of the time spent on information collection and subsequent decision-making by the chief of staff at the fire at auditory and visual acquisition of information; development of an electronic assistant to the chief of staff at the fire for the collection, processing, transmission and visualization of data on fire tankers.
Methods. Theoretical analysis, modeling.
Findings. The advantages of obtaining and processing data in the form of visualized graphic information in comparison with auditory acquisition of the same information about the work of units on fire tankers during emergency response are substantiated. At visual reception visual information gathering not only reduces time for information gathering in comparison with auditory (approximately in 8 times), but also allows to make decisions on the basis of the collected data faster (by 27 %). A prototype of a hardware-software module for collection, processing, transmission and visualization of fire tanker parameters, such as the volume of water in the tank, the volume of foaming agent, power take-off, power supply voltage in the on-board electric circuit of the vehicle, geopositioning of the vehicle, has been developed.
Application field of research. Extinguishing fires and eliminating emergency situations, which involve a significant amount of equipment.
References
Dushkov B.A., Korolev A.V., Smirnov B.A. Osnovy inzhenernoy psikhologii [Fundamentals of engineering psychology]: textbook. Moscow: Akademicheskiy proekt; Ekaterinburg: Delovaya kniga, 2002. 573 p. (rus). ISBN 5-8291-0159-9.
Efimov A.N. Informatsiya: tsennost', starenie, rasseyanie [Information: value, aging, dispersion]. Moscow: Znanie, 1978. 64 p. (rus)
Poluprovodnikovaya elektronika [Semiconductor electronics]. Team of authors – employees of Infineon Technologies; translation from English. Moscow: DMK Press, 2015. 592 p. (rus). ISBN 978-5-97060-312-3.
Ivashchenko N.V., Mulyarchik K.S. Razrabotka kontseptsii i prototipa programmno-konfiguriruemoy sistemy telemetrii [Development of concept and prototype of software-configurable telemetry system]. Proc. of the 74th Scientific conf. of students and postgraduates of the Belarusian State University, Minsk, May 15–24, 2017. In 3 parts. Minsk: BSU, 2017. Part 1. Pp. 211–214. (rus). Url: https://elib.bsu.by/handle/123456789/191751.
Kurmaev T.I. Sravnenie protokolov peredachi dannykh v internete veshchey [A comparison of data transfer protocols in the internet of things]. International Research Journal, 2022. No. 1 (115), Part 1. Pp. 45–47. (rus). DOI: https://doi.org/10.23670/IRJ.2022.115.1.007. EDN: https://elibrary.ru/KEHBOB.
Blum Jeremy. Izuchaem Arduino: instrumenty i metody tekhnicheskogo volshebstva [Exploring Arduino: tools and techniques for engineering wizardry], 2nd edition, translation from English. St. Petersburg: BKhV-Peterburg; 2020. 529 p. (rus). ISBN 978-5-9775-6736-7.
Published
How to Cite
License
Copyright (c) 2024 Lakhvich V.V., Sivuda A.V.
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.