DEVELOPMENT OF A COMPUTERIZED FIRE FORECASTING SYSTEM IN RESIDENTIAL SECTOR

Authors

DOI:

https://doi.org/10.24025/2306-4412.1.2019.164756

Keywords:

fire forecasting, residential sector, computerized system, numerical system

Abstract

The research is devoted to the development of a structural scheme of the computerized system for the implementation of the method for predicting the preconditions of fire emergence in residential sector. The developed computerized system is based on the use of the method of group consideration of arguments due to its adaptation to the subject area. Table implementation of the method will provide accurate fire forecasting in residential sector in real time. It is established that the use of the system of residual classes and information redundancy is the most effective method for increasing the speed and reliability of the work of specialized computing means. Further research was aimed at finding a numerical system that most effectively implements the system of residual classes, taking into account the current development of computer technology. To ensure the speed and reliability of the implementation of the system of residual classes, it is proposed to implement it based of a positional biquatemary system with a constant number of units. In a biquatemary system with a constant number of units, the system of residual classes is effectively implemented taking into account the existing elemental base of computer technology. As the results of the calculations show, such a system of calculations is guaranteed to detect all errors of odd multiplicity with a significant simplicity of information control. It follows that a binary quadruple system can be considered promising for the use in specialized computer systems to predict the preconditions for the emergence of fires in the residential sector and fire safety management systems. In this research we have paid special attention to the lack of false prediction. Mistakes in forecasting the preconditions for the emergence of fires in the residential sector may lead to inefficient use of forces and means of bodies and units of the State Emergency Service of Ukraine and significant loss of funds

Author Biographies

О. Г. Мельник, Cherkasy Institute of Fire Safety named after Chornobyl Heroes of National University of Civil Defense of Ukraine

Associate Professor of the Department of safety of construction and labor protection

Р. П. Мельник, Cherkasy Institute of Fire Safety named after Chornobyl Heroes of National University of Civil Defense of Ukraine

Associate Professor of the Department of automatic safety systems and electrical installations

References

World health rankings. URL: http://www. worldlifeexpectancy.com/cause-of-death/fi res/by-country/

The analysis of the set of fire accounting cards (POG_STAT) for 12 months of 2018. URL: http://undicz.dsns.gov.ua/ua/Analiz-masivukartok-obliku-pozhezh.html

Jihyun Lee, Jiyeon Son, Jeu Young Kim, Jun Hee Park (2012). Planning energy consumption of home appliances in real home network environments. 2012 IEEE International Conference on Consumer Electronics (ICCE), Las Vegas, pp. 524–525. doi: 10.1109/ICCE.2012.6161802

Moayedi, S., Shom, S., Harms, A., Alahmad, M. (2018). Real time power monitoring detection based on sequence time domain reflectometry approach. Journal of Computer and Communications, No. 6, pp. 92–103. doi: 10.4236/jcc.2018. 61010

Alahmad, M., Nader, W., Neal, J. et al. (2010). Real time power monitoring & integration with BIM. IECON 2010 – 36th annual conference on IEEE industrial electronics society, 7–10 Nov., pp. 2454– 2458. doi: 10.1109/IECON.2010.5675385

Vidyashree, P., Pushpalatha, S. (2017). The design and implementation of building fire monitoring system using zigbee-wifi gateway. International Research Journal of Engineering and Technology (IRJET), vol. 4, iss. 7, pp. 3030–3032.

Dendarenko, V. Yu., Melnyk, O. G., Chepurnyi, G. P. (2014). Construction of information system for fire safety monitoring. Zbirnyk naukovykh prats Kharkivskoho universytetu Povitrianykh Syl, iss. 3 (40), pp. 167–170 [in Ukrainian].

Melnyk, O. G. (2015). Formation of requirements to vector foundation of residual classes system taking into account the solution of the problem of fire forecasting in housing sector. Systemy ozbroyennya i vijskova tehnika, No. 1 (41), pp. 165–167 [in Ukrainian].

Melnyk, O. G., Melnyk, R. P. (2017). Evaluation of fire forecasting efficiency in housing sector. Visnyk Сherkaskogo derzhavnogo technolohichnogo univer-sytetu. Seria: Tehnichni nauky, No. 4, pp. 27–31 [in Ukrainian].

Golub, S. V. (2007). Multilevel modeling in the technologies of environment monitoring: monograph. Cherkasy: Vyd-vo ChNU im. B. Khmelnytskoho, 220 р. [in Ukrainian].

Melnyk, O. G., Melnyk, R. P. (2017). The use of group argument accounting method to fire forecasting in housing sector. Nadzvychaini sytuatsii: bezpeka ta zakhyst: materials of the VII All-Ukr. sci.-pract. conf. with internat. participation. Cherkasy, pp. 7–8 [in Ukrainian].

Рantjeljejeva, N. M., Rudnyckyj, V. M. (2009). Theoretical foundations for the creation of natural reliable computer systems. Сherkasy: Brama-Ukraіna, 200 р. [in Ukrainian].

Rudnickij, V. N., Kazarinova, N. L., Nechiporenko, O. V. (2005). The synthesis of arithmetic units by relience condition based on notation systems with fixed bit count. Zbirnyk naukovych prac IPME NANU, iss. 29, pp. 3–11 [in Russian].

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Published

2019-04-26

How to Cite

Мельник, О. Г., & Мельник, Р. П. (2019). DEVELOPMENT OF A COMPUTERIZED FIRE FORECASTING SYSTEM IN RESIDENTIAL SECTOR. Bulletin of Cherkasy State Technological University, (1), 5–10. https://doi.org/10.24025/2306-4412.1.2019.164756

Issue

No. 1 (2019)

Section

Progressive Information Technologies, Project Management

URN

http://vtn.chdtu.edu.uaurn:2306:44551.2019.164756

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