The reliability analysis of receiving messages in IoT technologies with one-way interaction protocols

Keywords: IoT technologies with one-way interaction protocols, reliability of message reception, probability of correct message reception, probability of false detecting

Abstract

An analysis of information receiving reliability in IoT technologies with one-way interaction protocols was carried out. The influence regularities of the interference environment on the value of messages reception correct probability have been established. The possibility of false detecting and the applied methods of increasing the message reception reliability are taken into account. Research directions to ensure the possibility of using IoT technologies with one-way interaction protocols during the conduct of modern combat operations have been determined. It was made for difficult interference environment and the influence of structural interference.

References

Russell S., Abdelzaher T. The Internet of Battlefield Things: The Next Generation of Command, Control, Communications and Intelligence (C3I) Decision-Making. MILCOM 2018 – 2018 IEEE Military Communications Conference (MILCOM), 29 – 31 Oct. 2018. Los Angeles, CA, USA. Los Angeles. 2018. P. 737

Analyzing the Applicability of Internet of Things to the Battlefield Environment / N. Suri, M. Tortonesi, J. Michaelis, P. Budulas, G. Benincasa, S. Russell, C. Stefanelli, R. Winkler. ICMCIS 2016: Conference Paper At Brussels, Belgium, May 2016.

MAC Layer Protocols for Internet of Things. Luiz Oliveira, Joel J. P. C. Rodrigues, Sergei A. Kozlov, Ricardo A. L. Rabêlo, Victor Hugo C. de Albuquerque. Journal Future Internet. 2019. Vol. 11(1). P. 16.

A Sigfox Energy Consumption Model. Carles Gomez, Juan Carlos Veras, Rafael Vidal, Lluís Casals. Journal Sensors. 2019. Vol. 19. P. 681.

Yerokhin V. F., Zaluzhnyi O. V. Calculating technique of the codegram length for asymptotically reliable radio lines of control / Yerokhin V. F., Zaluzhnyi O. V. // Visnyk NTUU KPI Seriia - Radiotekhnika Radioaparatobuduvannia. – 2013. - № 54. – P. 44 – 53.

Bembe, M., Abu-Mahfouz, A., Masonta, M. A survey on low-power wide area networks for IoT applications. Telecommun Syst 71, 249–274 (2019).

B. Buurman, J. Kamruzzaman, G. Karmakar and S. Islam. Low-Power Wide-Area Networks: Design Goals, Architecture, Suitability to Use Cases and Research Challenges. in IEEE Access, vol. 8, pp. 17179-17220, 2020, DOI: 10.1109/ACCESS.2020.2968057.

Abbas R., Al-Sherbaz A., Bennecer A., Picton P. A new channel selection algorithm for the Weightless-N Frequency Hopping with lower collision probability. 8th International Network of the Future (NoF) Conference Proceedings. London: IEEE (In Press). 2017

Investigating communication architecture for tactical radio networks design / B. Suman, S.C. Sharma, M. Pant, S. Kumar. International Journal of Research in Engineering & Applied Sciences. 2012. Vol. 2, Issue 2. P. 106 – 118. URL: http://euroasiapub.org/wp-content/uploads/2016/10/11.pdf.

Protected radio systems for digital transmission of information / P.N. Serdyukov et al. Moscow: AST, 2006. 403 p.


Abstract views: 0
PDF Downloads: 0
Published
2022-12-18
How to Cite
Radzivilov , H. (2022). The reliability analysis of receiving messages in IoT technologies with one-way interaction protocols. COMPUTER-INTEGRATED TECHNOLOGIES: EDUCATION, SCIENCE, PRODUCTION, (49), 93-99. https://doi.org/10.36910/6775-2524-0560-2022-49-14
Section
Telecommunications and radio engineering