OPTIMIZATION OF THE NETWORK ALGORITHM FOR THE OPERATION OF INCREASED SURVIVABILITY COMPUTER NETWORKS
DOI:
https://doi.org/10.26906/SUNZ.2021.3.143Keywords:
survivability, computer network on a mobile platform, optimization, criterionAbstract
The article discusses the features of choosing a network algorithm and formulates the problem of its optimization when designing a computer network on a mobile platform by developing a survivability criterion for the specified class of computer networks. The purpose of the article is to develop a criterion for the survivability of a computer network on a mobile platform for its further use in the design of the specified class of networks in order to ensure an appropriate level of network survivability. The results obtained make it possible to continue the development of the methodology for assessing the survivability of computer networks on a mobile platform under conditions of destructive external influences when it is necessary to rebuild its topology; to solve optimization problems of the network algorithm for the functioning of computer networks on a mobile platform at the stage of their synthesis. The studies allow us to conclude that the proposed criterion can be used at the stages of designing the survivability of computer networks on a mobile platform, characterized by increased survivability and functioning under conditions of constant restructuring of data routing schemes, including by restructuring the topology. Directions for further work are formulated, in particular, in terms of conducting a study on introducing structural unprofitability into computer networks on a mobile platform with the identification of nodes that, when the network performs its main function, become vulnerable, that is, the protection of which must be increasedDownloads
References
Srivastava A., Prakash J. Future FANET with application and enabling techniques: Anatomization and sustainability issues // Computer Science Review. – 2021. – Т. 39. – С. 100359.
Chriki A. FANET: Communication, mobility models and security issues // Computer Networks. – 2019. – Т. 163, 106877.
Orozco-Lugo A. G. et al. Monitoring of water quality in a shrimp farm using a FANET // Internet of Things. – 2020. – С. 100170.
Khan I. U. et al. Smart IoT control-based nature inspired energy efficient routing protocol for flying ad hoc network (FANET) //IEEE Access. – 2020. – Т. 8. – С. 56371-56378.
Churyumov, G., Tokarev, V., Tkachov, V., & Partyka, S. (2018, August). Scenario of interaction of the mobile technical objects in the process of transmission of data streams in conditions of impacting the powerful electromagnetic field. In 2018 IEEE second international conference on Data Stream Mining & Processing (DSMP) (pp. 183-186). IEEE.
Створення науково-методичних основ забезпечення живучості мережевих систем обміну інформацією в умовах зовнішнього впливу потужного НВЧ-випромінення [Текст]: вик. НДР (заключний звіт) / Харківський національний університет радіоелектроніки; керівн. Чурюмов Г.І., вик. Токарєв В.В., Ткачов В.М. – Х.: 2018. – No держреєстрації 018U000832.
А.Г. Додонов, Д.В. Ландэ. Живучесть информационных систем. – К.: Наук. думка, 2011. – 256 с.
Распределенная архитектура как средство повышения надежности и живучести бортовых информационно-управляющих систем / Н. П. Бородавка, Б. В. Остроумов, Н. Ф. Сидоренко, В. В. Тарасенко, В. С. Харченко, С. Я. Яценко // Радіоелектронні і комп'ютерні системи. – 2012. – No 6 (58). – С. 139–147
Метод забезпечення живучості високомобільної комп'ютерної мережі / В. М. Ткачов [та ін.] // Сучасні інформаційні системи = Advanced Information Systems. – 2021. – Т. 5, No 2. – С. 159-165.
Bondarenko L. A. et al. Оценка живучести иерархических телекоммуникационных сетей военного назначения // Modern Information Technologies in the Sphere of Security and Defence. – 2018. – Т. 31. – No. 1. – С. 61-67.
Кусакина М. С., Нетес В. А. Проблемы обеспечения надежности программно-конфигурируемых сетей // Телекоммуникации и информационные технологии. – 2019. – Т. 6. – No. 1. – С. 39-43.
Ross K. W. Multiservice loss models for broadband telecommunication networks. – Springer Science & Business Media, 2012.
Проектирование и эксплуатация сетей передачи дискретных сообщений / [ Архипов М. Н., Захаров Г. П., Малиновский С. Т., Яновский Г. Г.]. – М.: Радио и связь, 1988. – 360 с.
Tokariev V. Implementation of combined method in constructing a trajectory for structure reconfiguration of a computer system with reconstructible structure and programmable logic // Selected Papers of the XIX Int. Scientific and Practical Conf." Information Technologies and Security"(ITS 2019), Ukraine. – 2019. – С. 71-81.
