Methods and Tools for Assessing the Level of Noise Immunity of Wireless Communication Channels

Knyazev, V.V.; Lazurenko, Bogdan; Serkov, Aleksandr

doi:10.30837/itssi.2022.19.092

ITSSI

2022

DOI: 10.30837/itssi.2022.19.092

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Methods and Tools for Assessing the Level of Noise Immunity of Wireless Communication Channels

V.V. Knyazev¹,

Bogdan Lazurenko

Aleksandr Serkov

Abstract: The subject of this article is the process of increasing the noise immunityof wireless channels in the construction or operation of modern digital communication systems (DCS), when the transmission of digital information significantly complicates the presence of interference and distortion in the communication channel. The aim is analysis and development of methods for ensuring stable and reliable operation of ultra-wideband wireless communication system in the conditions of interference and distortion of info… Show more

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2024

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“…In the case of the second type of manipulation, for instance, it is possible to force an unmanned aerial vehicle to make an emergency landing or terminate its mission and return to its base [9].To counteract potential infiltration into the communication channel, it is imperative to first ensure the availability of said channel. The availability of communication resources encompasses the ability to furnish users with necessary system resources, spatial topology of users, and resilience of communication components amid organized electronic countermeasures [10][11][12]. To ensure resilient system management, it is essential to guarantee the integrity of command information.…”

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confidence: 99%

Method of Testing Large Numbers for Primality

Pevnev,

Yudin,

Sedlaček

et al. 2024

A.I.S.

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The current stage of scientific and technological development entails ensuring information security across all domains of human activity. Confidential data and wireless channels of remote control systems are particularly sensitive to various types of attacks. In these cases, various encryption systems are most commonly used for information protection, among which large prime numbers are widely utilized. The subject of research involves methods for generating prime numbers, which entail selecting candidates for primality and determining the primality of numbers. The subject of research involves methods for generating prime numbers, which choice selecting candidates for primality and determining the primality of numbers. The objective of the work is the development and theoretical justification of a method for determining the primality of numbers and providing the results of its testing. The aim to address the following main tasks: analyze the most commonly used and latest algorithms, methods, approaches, and tools for primality testing among large numbers; propose and theoretically justify a method for determining primality for large numbers; and conduct its testing. To achieve this aim, general scientific methods have been applied, including analysis of the subject area and mathematical apparatus, utilization of set theory, number theory, fields theory, as well as experimental design for organizing and conducting experimental research. The following results have been obtained: modern methods for selecting candidates for primality testing of large numbers have been analyzed, options for generating large prime numbers have been considered, and the main shortcomings of these methods for practical application of constructed prime numbers have been identified. Methods for determining candidates for primality testing of large numbers and a three-stage method for testing numbers for primality have been proposed and theoretically justified. The testing conducted on the proposed primality determination method has demonstrated the correctness of the theoretical conclusions regarding the feasibility of applying the proposed method to solve the stated problem. Conclusions. The use of a candidate primality testing strategy allows for a significant reduction in the number of tested numbers. For numbers of size 200 digits, the tested numbers is reduced to 8.82%. As the size of the tested numbers increases, their quantity will decrease. The proposed method for primality testing is sufficiently simple and effective. The first two stages allow for filtering out all composite numbers except for Carmichael numbers. In the first stage, using the first ten prime numbers filters out over 80 percent of the tested numbers. In the second stage, composite numbers with factors greater than 29 are sieved out. In the third stage, Carmichael numbers are sieved out. The test is polynomial, deterministic, and unconditional.

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mentioning

confidence: 99%

Method of Testing Large Numbers for Primality

Pevnev,

Yudin,

Sedlaček

et al. 2024

A.I.S.

View full text Add to dashboard Cite

show abstract

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Methods and Tools for Assessing the Level of Noise Immunity of Wireless Communication Channels

Cited by 1 publication

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Method of Testing Large Numbers for Primality

Method of Testing Large Numbers for Primality

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