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Article title THE ANALYSIS OF STABLE FUNCTIONING A NEW GENERATION ROBOTIC SYSTEMS IN MAN-MADE ULTRASHORT ELECTROMAGNETIC PULSES
Authors A.V. Shevyrev, Yu.V. Nevzorov, I.A. Fomina, P.N. Pimenov, S.A. Pronin
Section SECTION IV. STANDARDIZATION AND MANAGEMENT PRODUCT QUALITY
Month, Year 02, 2016 @en
Index UDC 621.371
DOI
Abstract This article gives a brief overview of progress in the field of national and world level robotics. It is shown the key applications and future development of robotic systems. In this article indicated examples of some species robotic systems both air and ground-based, intended for wide range of dual-use applications. The problem of ensure sustainable functioning of the systems in terms of intentional electromagnetic influence was solved in this article. The supershort pulses of electromagnetic radiation was allocated in a separate type of electromagnetic effect. It was shown its distinctive lethality. It was shown mechanisms influence of such a pulse on the information processing means. It was shown a comparative assessment of the impact on the narrow-band, broadband and ultra-wideband radio tools. It was overviewed of normative documents regulating the stability requirements, test methods, provisions for the protection of automated systems and requirements to means of detection and protection against intentional electromagnetic influences. It revealed the need for testing on the effects of robotic systems over short pulse of electromagnetic radiation. It was shown the description, developed by JSC "MNIRTI" complex influence over the short pulse of electromagnetic radiation, which is designed to test for intentional electromagnetic interference of this kind. These characteristics and features of the source impact construction. The complex influence allows to determine the critical parameters of the field in blocking and distortion of information processed, as well as physical damage to items in the data processing devices and information and command system, due to the possibility of flexible changes affecting the field amplitude and pulse repetition frequency while measuring the field at the point of impact.

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Keywords Robotic systems; ultrashort electromagnetic pulses; stable functioning; protection.
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