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Киреев, Сергей Васильевич

Организационные подразделения

Организационная единица

Институт лазерных и плазменных технологий

Стратегическая цель Института ЛаПлаз – стать ведущей научной школой и ядром развития инноваций по лазерным, плазменным, радиационным и ускорительным технологиям, с уникальными образовательными программами, востребованными на российском и мировом рынке образовательных услуг.

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Киреев

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Сергей Васильевич

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National research and federal universities contribution to the project 5-100
(2020) Berestov, A. V.; Guseva, A. I.; Kalashnik, V. M.; Kaminsky, V. I.; Kireev, S. V.; Sadchikov, S. M.; Берестов, Александр Васильевич; Гусева, Анна Ивановна; Калашник, Вячеслав Михайлович; Каминский, Владимир Ильич; Киреев, Сергей Васильевич; Садчиков, Сергей Михайлович; Факультет бизнес-информатики и управления комплексными системами
© 2020 Moscow Polytechnic University. All rights reserved.This article presents research results of national research universities (NRU) and federal universities (FU) contribution to the Project of competitiveness enhancement of the leading Russian universities among global research and education centers (Project 5-100). The following indicators were analyzed: publications, indexed in Web of Science and Scopus databases, share of international students and faculty, share of young employees and staff with PhD, performance in international rankings, etc. The analysis was based on 41 quantitative and 11 qualitative indicators. In the analysis the following data sources were used: statistical forms 1-Monitoring, rankings agencies data, etc. It has been determined that the most influence on the Russian education competitiveness enhancement in the world belongs to the leading NRU - participants of Project 5-100. The article analyzes the contribution of federal universities in the implementation of the Project 5-100.
Только метаданные
Project "National Research University" – Driver of russian higher education Проект "национальныи исследовательскии университет" – драивер россииского высшего образования
(2020) Berestov, A. V.; Guseva, A. I.; Kalashnik, V. M.; Kaminsky, V. I.; Kireev, S. V.; Sadchikov, S. M.; Берестов, Александр Васильевич; Гусева, Анна Ивановна; Калашник, Вячеслав Михайлович; Каминский, Владимир Ильич; Киреев, Сергей Васильевич; Садчиков, Сергей Михайлович; Факультет бизнес-информатики и управления комплексными системами
© 2020 Moscow Polytechnic University. All rights reserved.The article presents the results of the national research universities (NRU) development programs implementation analysis for the period 2008–2018. The authors have held a comparative analysis of NRU activities with other strategic initiatives in the field of higher education in Russia, in particular, Russian Academic Excellence Project 5-100 on Competitiveness Enhancement of the Leading Russian Universities among Global Research and Education Centers; Project «Federal Universities»; support for strategic development programs of state educational institutions of higher education; sustainable relationships support between higher educational institutions and regional enterprises and organizations within the framework of the priority project “Universities as Innovation Drivers”. The analysis was based on 41 quantitative and 11 qualitative indicators. In the analysis, the following data sources were used: statistical forms 1-Monitoring, data from ranking agencies, etc. It has been determined that implementation of development programs for the entire NRU network is generally successful and positively affects the development of Russian higher education. The leading NRU – the participants of Project 5-100 have shown the greater impact on the enhancement of the Russian education in the world.
Только метаданные
Flagship universities as development potential of regions and industries
(2020) Berestov, A. V.; Guseva, A. I.; Kalashnik, V. M.; Kaminsky, V. I.; Kireev, S. V.; Sadchikov, S. M.; Берестов, Александр Васильевич; Гусева, Анна Ивановна; Калашник, Вячеслав Михайлович; Каминский, Владимир Ильич; Киреев, Сергей Васильевич; Садчиков, Сергей Михайлович; Факультет бизнес-информатики и управления комплексными системами
© 2020 Moscow Polytechnic University. All rights reserved.This article presents the research results of flagship universities activities, which support social and economic development of the Russian Federation regions, including the creation of innovation, technological and social region development centers. The research covers the period from 2015 to 2018. The following core areas of flagship universities were analyzed: educational, research, integration with regions and high-tech industries, international activities. Essential aspects of financial and economic activity and employment policy were considered. The analysis was based on 41 quantitative and 11 qualitative indicators, among which 8 indicators were prioritized. In the analysis the following data sources were used: statistical forms 1-Monitoring, rankings agencies data, etc. The effectiveness of flagship universities was studied. Problems and positive tendencies in flagship universities development were determined and analyzed.
Только метаданные
Experimental measurement of collision broadening of vibrational-rotational spectral lines(12)C(16)O(2)and(13)C(16)O(2)in the 4860-4880 cm(-1)region by diode laser absorption spectroscopy
(2020) Kireev, S. V.; Kondrashov, A. A.; Rybakov, M. A.; Shnyrev, S. L.; Киреев, Сергей Васильевич; Кондрашов, Андрей Андреевич
The experimental measurement of the R(18), R(20), R(22), R(24), R(26), R(28), R(30), R(34), R(36) absorption lines collision broadening for the(12)C(16)O(2)molecule vibrational band 20013-00001 and P(10), P(12), P(14), P(16), P(18), P(20), P(22) absorption lines for the(13)C(16)O(2)molecule 20012-00001 vibrational band have been reported in this paper. The research has been first carried out by the diode laser absorption spectroscopy method using a single-frequency diode laser emitting in the 4860-4880 cm(-1)region. The dependences of the absorption constants and cross-sections of these lines on the(13)C(16)O(2)and(12)C(16)O(2)molecules mixture concentrations in the ratio of 1:140 have been studied. The obtained results have been compared with the HITRAN spectroscopic database data.
Только метаданные
Improving the (CO2)-C-13 content measurement accuracy in exhaled air using the Kalman technique for filtering the experimental signal obtained by the tunable diode laser absorption spectroscopy method with the frequency modulation of the diode laser pump current
(2019) Kireev, S. V.; Kondrashov, A. A.; Shnyrev, S. L.; Киреев, Сергей Васильевич; Кондрашов, Андрей Андреевич
This paper reports on the application of the Kalman method for processing the signal obtained by the tunable diode laser absorption spectroscopy method in an experimental circuit, which includes the frequency modulation of a diode laser pump current in combination with the synchronous detection technique. It has established that the implementing of this approach makes it possible to improve the measurement accuracy of the (CO2)-C-13 content, as well as the measurement accuracy of the (CO2)-C-13 and (CO2)-C-12 concentrations ratio in exhaled air to a level not exceeding 0.1%.
Только метаданные
Application of the Wiener filtering algorithm for processing the signal obtained by the TDLAS method using the synchronous detection technique for the measurement problem of (CO2)-C-13 concentration in exhaled air
(2019) Kireev, S. V.; Kondrashov, A. A.; Shnyrev, S. L.; Киреев, Сергей Васильевич; Кондрашов, Андрей Андреевич
It has been shown clearly that using the synchronous detection technique with the pump current frequency modulation of a tunable diode laser emitting near 2 mu m wavelength, combined with the application of the Wiener filtering algorithm for the experimental signal, ensures a two-times improvement in the measurement accuracy for the (CO2)-C-13 content in exhaled air, and, for the (CO2)-C-13 and (CO2)-C-12 concentrations ratio, more than seven times.
Только метаданные
Application of adaptive filters to improve online detection sensitivity of (CO2)-C-13 in a mixture with (CO2)-C-12 in expiratory air
(2019) Kireev, S. V.; Kondrashov, A. A.; Shnyrev, S. L.; Киреев, Сергей Васильевич; Кондрашов, Андрей Андреевич
The use of adaptive Kalman and Wiener filters and the empirical mode decomposition algorithm for processing the experimental signal obtained by the tunable diode laser absorption spectroscopy method has been reported to improve the sensitivity of the measurement of (CO2)-C-13 content in human expiratory air. A laser diode, tunable in the range 4860-4880 cm(-1) near the wavelength of 2 mu m, is used as a source. It has shown that the application of these filters ensures a detection sensitivity of (CO2)-C-13 at the level of 10(15) cm(-3), while the minimum detectable fraction of (CO2)-C-13 in a mixture with the (CO2)-C-12 is 3.8.10(-5).
Только метаданные
Application of the least square method for processing the signal obtained by the tuneable diode laser absorption spectroscopy method in the range 4860-4880 cm-1 for the problem of measuring 13CO2 content in exhaled air
(2019) Kireev, S. V.; Kondrashov, A. A.; Shnyrev, S. L.; Киреев, Сергей Васильевич; Кондрашов, Андрей Андреевич
© 2019 Astro Ltd.The 1st, 2nd and 3rd order least square method (LSM-1, LSM-2 and LSM-3) is applied to smooth the experimental absorption signal of 13CO2 and 12CO2 obtained by the tuneable diode laser absorption spectroscopy method in the 4860-4880 cm-1 frequency range of a tuneable diode laser. It has been shown clearly that using LSM-2 with a filter window N ∼ 100 allows the 13CO2 content in exhaled air to be measured at an error level of 0.28%, which meets breathing tests requirements.
Открытый доступ
РАЗРАБОТКА МЕТОДА ДЕТЕКТИРОВАНИЯ ИЗОТОПОЛОГОВ МОЛЕКУЛЯРНОГО ЙОДА В ГАЗАХ В РЕАЛЬНОМ МАСШТАБЕ ВРЕМЕНИ НА ОСНОВЕ ЛАЗЕРНОЙ ФЛУОРЕСЦЕНЦИИ, ВОЗБУЖДАЕМОЙ ЛАЗЕРАМИ НА ПАРАХ МЕДИ
(НИЯУ МИФИ, 2024) Киреев, С. В.; Суганеев, С. В.; Киреев, Сергей Васильевич
Сообщается о разработке метода одновременного селективного детектирования изотопологов молекулярного йода 127I2, 127I129I и 129I2 в газовых средах, характерных для предприятий ядерного топливного цикла и атмосферы. Предлагаемый метод относится к методам лазерно-флуоресцентной спектроскопии и заключается в анализе спектров флуоресценции смеси изотопологов молекулярного йода. Метод предусматривает регистрацию интенсивностей флуоресценции на предварительно рассчитанных длинах волн. В качестве источника возбуждения флуоресценции предлагаются лазеры на парах меди, излучающие на длинах волн 510.6 и 578.2 нм. Метод позволяет осуществлять высокочувствительный мониторинг изотопологов молекулярного йода (в том числе радиоактивного 129I2) в реальном масштабе времени в технологических средах, образующихся в процессах переработки отработавшего ядерного топлива, в газовых выбросах радиохимических предприятий и в атмосферном воздухе.
Только метаданные
Analysis of Performance of University Groups Belonging to "Leadership in the Region and/or Industry" Track of "Priority 2030" Program [Анализ деятельности групп университетов трека "Территориальное и отраслевое лидерство" программы "Приоритет-2030"]
(2022) Guseva, A. I.; Kalashnik, V. M.; Kaminsky, V. I.; Kireev, S. V.; Гусева, Анна Ивановна; Калашник, Вячеслав Михайлович; Каминский, Владимир Ильич; Киреев, Сергей Васильевич; Факультет бизнес-информатики и управления комплексными системами
This article presents the comprehensive study results of the performance of universities which are the winners of the “Leadership in the region and/or industry” track of the “Priority 2030” program. The research included a comparison of the results of 3 groups of universities of this track, determined by the results of the competition. The participation of these groups of universities in the main strategic initiatives in the field of the higher education system development in 2006–2020 is considered; indicators for the main areas of university activities were selected and grouped, namely, educational, scientific and innovation, international and financial. The comparative analysis of aggregate indicators of recent years is based on the Displaced Ideal Method. This made it possible not only to determine the current positions of universities belonging to the examined track, but also to identify a number of problems in their activities that need to be solved in the coming years to strengthen their contribution to the socio-economic development of the regions. The results of the comprehensive analysis can be used not only by the current participants of the “Leadership in the region and/or industry” track of the “Priority 2030” program, but also by universities that only plan to take part in this program in the near future and the expert community engaged in research in the field of higher education development in Russia. © 2022 Moscow Polytechnic University. All rights reserved.