Персона: Симахин, Егор Андреевич
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Егор Андреевич
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- ПубликацияТолько метаданныеDevelopment of a Software Package for the Analysis of Compromising Emanation Using LabVIEW(2021) Kagin, I. I.; Simakhin, E. A.; Arabian, S. G.; Kessarinskiy, L. N.; Durakovskiy, A. P.; Симахин, Егор Андреевич; Кессаринский, Леонид Николаевич; Дураковский, Анатолий Петрович© 2021 IEEE.At present, automated measuring systems are used to analyze compromising emanation by data transmission interfaces. The software, namely the one that implements the control system for measuring equipment, was developed for operating systems that do not meet the information security requirements, as well as do not currently have technical support. The use of such operating systems does not provide the required level of protection against unauthorized access of documents reflecting the results of analysis of compromising emanation by various data transmission interfaces. The use of protected operating systems of the Unix family or operating systems of the Windows family for this purpose solves the security problem. In this regard, it is necessary to develop new software that meets the specified requirements for information security and provides cross-platform, ease of development and control interface, interaction with measuring equipment, excluding violations of normal operation, as well as business continuity. A hardware and software complex comprising attested measuring device and software for development of applications in LabVIEW, is developed. A list of informative frequencies with respective values of signal power emitted in the data transmission interface under study is given.
- ПубликацияТолько метаданныеX-ray Based Electronic Components Authentication Methods to Counterfeit Detection(2021) Shirin, A. O.; Taiibov, F. F.; Simakhin, E. A.; Kessarinskiy, L. N.; Koval, K. A.; Artamonov, A. S.; Durakovskiy, A. P.; Симахин, Егор Андреевич; Кессаринский, Леонид Николаевич; Коваль, Кирилл Александрович; Артамонов, Алексей Сергеевич; Дураковский, Анатолий Петрович© 2021 IEEE.The problem of counterfeit products, electronic and electromechanical products is presented. One of the most effective non-destructive electronics analyses is x-ray checking, that is presented in this paper.
- ПубликацияТолько метаданныеAnalysis of Electromagnetic Radiation of LCD Monitor with DisplayPort Interface(2022) Kagin, I. I.; Durakovskiy, A. P.; Simakhin, E. A.; Shinyaev, D. A.; Kessarinskiy, L. N.; Дураковский, Анатолий Петрович; Симахин, Егор Андреевич; Кессаринский, Леонид Николаевич© 2022 IEEE.The present paper aims is to analyze the electromagnetic radiation (EMR) of a monitor with a DisplayPort interface and, based on the information obtained, to propose methods for detecting spectral components of informative interfaces and determining the effective frequency band. An automated workplace with a single monitor and, accordingly, a specification for a single-threaded video signal transmission mode is considered as the computer processed information under study. When conducting a research of the interface architecture components affecting the distribution of EMR energy in the spectrum, it was determined that the noise immunity of the main channel lines depends on the configuration settings of the DisplayPort. This dependence makes it possible to change the configuration by software and thus significantly affect the quality of testing. An experiment was performed, the results of which showed that the power distribution of the EMR depends on the applied modulation transformation. Based on the results of the experiment, a method for detecting spectral components for LVDS, RSDS and DisplayPort interfaces using an RandS FSW 13 spectrum analyzer and an anechoic chamber is proposed. Based on the analysis of the spectrum envelope and the specification of the DisplayPort interface, it was determined that the reason for the continuous power distribution of the signals of the interfaces is the use of SSFM for the DisplayPort interface and linear frequency modulation for the LVDS and RSDS interfaces. Based on the results of the research, methods for determining their effective signal bandwidth are proposed.