Труды сотрудников ИВМ СО РАН

[Text] / V. V. Denisenko [et al.] // Ann. Geophys. - 2008. - Vol. 26, Is. 8. - P2111-2130. - Cited References: 19. - This work is supported by grant 07-05-00135 from the Russian Foundation for Basic Research, by the Programs 16.3 and 2.16 of the Russian Academy of Sciences, and by project I.2/04 from "Osterreichischer Austauschdienst". It is also supported by the Austrian "Fonds zur Forderung der wissenschaftlichen Forschung" under projects P17100-N08 and P20145-N16. We acknowledge support by the Austrian Academy of Sciences, "Verwaltungstelle fur Auslandsbeziehungen", and the Russian Academy of Sciences. . - ISSN 0992-7689РУБ Astronomy & Astrophysics + Geosciences, Multidisciplinary + Meteorology & Atmospheric Sciences

Аннотация: A quantitative division of the ionosphere into dynamo and motor regions is performed on the base of empirical models of space distributions of ionospheric parameters. Pedersen and Hall conductivities are modified to represent an impact of acceleration of the medium because of Ampere's force. It is shown that the currents in the F(2) layer are greatly reduced for processes of a few hours duration. This reduction is in particular important for the night-side low-latitude ionosphere. The International Reference Ionosphere model is used to analyze the effect quantitatively. This model gives a second high conducting layer in the night-side low-latitude ionosphere that reduces the electric field and equatorial electrojets, but intensifies night-side currents during the short-term events. These currents occupy regions which are much wider than those of equatorial electrojets. It is demonstrated that the parameter sigma(d)=sigma(P)+sigma(H)Sigma(H)/Sigma(P) that involves the integral Pedersen and Hall conductances Sigma(P), Sigma(H) ought to be used instead of the local Cowling conductivity sigma C in calculations of the electric current density in the equatorial ionosphere. We may note that Gurevich et al. (1976) derived a parameter similar to sigma(d) for more general conditions as those which we discuss in this paper; a more detailed description of this point is given in Sect. 6. Both, sigma(d) and sigma(C), appear when a magnetic field line is near a nonconducting domain which means zero current through the boundary of this domain. The main difference between sigma(d) and sigma(C) is that sigma d definition includes the possibility for the electric current to flow along a magnetic field line in order to close all currents which go to this line from neighboring ones. The local Cowling conductivity sigma(C) corresponds to the current closure at each point of a magnetic field line. It is adequate only for a magnetic field line with constant local conductivity at the whole line when field-aligned currents do not exist because of symmetry, but sigma(C)=sigma(d) in this case. So, there is no reason to use the local Cowling conductivity while the Cowling conductance Sigma(C)=Sigma(P)+Sigma(2)(H)/Sigma(P) is a useful and well defined parameter.


Доп.точки доступа:
Denisenko, V.V.; Денисенко, Валерий Васильевич; Biernat, H.K.; Mezentsev, A.V.; Shaidurov, V.A.; Zamay, S.S.

/ N. V. Kireev, G. I. Starostin // Mekhanika Kompozitnykh Materialov. - 1992. - Is. 5. - P609-617 . - ISSN 0203-1272
Аннотация: The problem of modelling the main geometrical characteristics, such as ply thickness, fibre reinforcement and angles of the structure of a composite material, is considered for an axisymmetrical shell made by oblique cross-ply winding. A model is proposed for shaping the reinforcing frame, which gives then a system of nonlinear equations for determining the characteristics desired as a function of the technological process, shape of the mandrel and properties of the reinforcing fibres. An algorithm is suggested for numerical analysis of the system. It has been found that if using non-cylindrical shapes of mandrels the ply thickness, fibre contents and angles, and effective elastic characteristics of a ready-made composite varied essentially both along meridian and thickness of the shell.

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Держатели документа:
Vychislitel'nyj Tsentr SO RAN, Krasnoyarsk, Russian Federation
ИВМ СО РАН

Доп.точки доступа:
Kireev, N.V.; Starostin, G.I.

/ I. V. Zenkov, I. M. Baradulin // Gorn. Zh. - 2016. - Vol. 2016, Is. 3. - С. 85-88, DOI 10.17580/gzh.2016.03.18 . - ISSN 0017-2278
Аннотация: Slow-rate development of mineral resources in Siberia is connected with remoteness of mineral fields and deficiency in hard-surface roads. The approval of the government transport system program in Siberia requires boosting road metal production and quarrying expansion. Mined-out voids of depleted quarries disturb lands and remain bare for a long time. The situation in the Krasnoyarsk Territory is of particular concern. It is urgently required to find planting methods for mined-out ballast quarries. The obstacle is the traditional geometry of mined-out open pits, with steep walls and vast bottom flooded with atmospheric precipitations. Ecological monitoring of mined-out surface mines in the Krasnoyarsk Territory and most effective vegetation of mined-out voids shows that, given the local climate (long cold winter and short hot summer), population of trees is higher on the southern and eastern pit walls, where moisture content is higher and trees are less dehumidified under the sun in simmer; of no less significance is flatness of slopes and weak inclination (3-5°) of roads towards pit walls, as well as presence of fertile soil layer in the walls. On special purpose plots of land 0.2 ha in area, trees have been counted per each element of a quarry, which makes the basis to develop recommendations on environmentally optimal shape of quarries: maximum area of the southern and eastern pitwalls to be slightly sloping (15-24°), minimum technologically reasoned area of bottom is shifted northwestward. The study is in accordance with the Fundamental Research Program of the National Academies of Sciences for 2013-2020 and the research plan of the Nauka Design and Engineering Center, ICT SB RAS for 2013-2017, under the project "Information Support Models and Technologies for Evaluation, Forecasting and Management of Regional Eco-Systems, Territorial Infrastructure and Natural and Industrial Safety".

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Держатели документа:
Institute of Computational Technologies, Siberian Branch, Russian Academy of Sciences, Krasnoyarsk, Russian Federation
Siberian Federal University, Krasnoyarsk, Russian Federation
Nauka Design and Engineering Center, Krasnoyarsk Division

Доп.точки доступа:
Zenkov, I. V.; Baradulin, I. M.

/ T. Penkova, W. Froelich // (15 June 2016 through 17 June 2016. - 2016. - Vol. 57. - P241-250, DOI 10.1007/978-3-319-39627-9_21 . -
Аннотация: In this paper we address the problem of modeling and forecasting of wellbeing. First, we apply a graph-based model of a Fuzzy cognitive map to discover cause-and-effect relationships among indicators of well-being. Second, the discovered model is applied to forecast the future state of well-being. The model is constructed using historical multivariate time series containing six consolidated indexes that represent well-being on the considered territory. Experiments with real-world data provided evidence for the usefulness of the proposed approach. Moreover, the interpretation of the obtained FCM graph led to the discovery of unknown dependencies within the data. The analysis of the unknown dependencies requires further research. © Springer International Publishing Switzerland 2016.

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Держатели документа:
Institute of Computational Modelling SB RAS, Krasnoyarsk, Russian Federation
The University of Silesia, ul. Bedzinska 39, Sosnowiec, Poland

Доп.точки доступа:
Penkova, T.; Froelich, W.

/ N. Shaparev, O. Yakubailik // MATEC Web of Conferences. - 2016. - Vol. 79: 7th Scientific Conference on Information-Measuring Equipment and Technologies, IME and T 2016 (25 May 2016 through 28 May 2016, ) Conference code: 124242, DOI 10.1051/matecconf/20167901081 . -
Аннотация: The work considers information and computing technologies supporting regional decisions making and based on geoinformation websystems and mapping web-services. The use of such systems for the information support of regional management is now becoming common. Long-term strategic forecasting and planning of territories development, solution of various institutional and sectoral problems today are often based on the use of integrated information and computing environment, complex information systems of regional management, which are based on geospatial (mapping) data. This paper discusses technologies and webservices used in the creation and implementation of regional geoinformation web-systems. Such systems provide access to huge arrays of geospatial information and services distributed in the Internet, remote data processing with high performance multi-user computers. Problems of choosing basic software such as geoinformation platform, advantages and disadvantages of existing solutions are discussed. The software structure and basic web-GIS components are analyzed. Examples of completed projects are given. © The Authors, published by EDP Sciences, 2016.

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Держатели документа:
Institute of Computational Modeling SB RAS, Krasnoyarsk, Russian Federation
National Research Tomsk State University, Tomsk, Russian Federation

Доп.точки доступа:
Yakubaylik, O.E.; Якубайлик, Олег Эдуардович; Шапарев, Николай Якимович

/ S. Bartsev, P. Belolipetskii, A. Degermendzhi // V INTERNATIONAL WORKSHOP ON MATHEMATICAL MODELS AND THEIR APPLICATIONS : IOP PUBLISHING LTD, 2017. - Vol. 173: 5th International Workshop on Mathematical Models and their Applications (NOV 07-09, 2016, Krasnoyarsk, RUSSIA). - Ст. UNSP 012005. - (IOP Conference Series-Materials Science and Engineering), DOI 10.1088/1757-899X/173/1/012005. - Cited References:31. - This work was supported by grant RFBR-KKFN No 15-41-04300 and Complex Program of SB RAS No II.2. No 0360-2015-0002. . - РУБ Materials Science, Multidisciplinary + Mathematics, Applied

Аннотация: Forecasting response of the biosphere and regional ecosystems to observed and expected climate change is the fundamental problem with obvious practical significance. Fundamental non-linearity of the climate system and biosphere makes feasible implementing multiple states and threshold processes in the biosphere-climate system (BCS) in response to gradually increasing influence factor (greenhouse gas concentrations growth). Really time series analysis of global temperature and other global and local parameters indicates the presence of abrupt transitions between stationary states. Identification of the switching mechanisms using general circulation models of the atmosphere and the ocean is associated with the obvious difficulties due to their complexity. Understanding the nature of such switches at qualitative level can be achieved by using a conceptual small-scale models. Some variants of possible mechanisms capable of generating these shifts and simultaneously supporting quasi-stationary periods between them are discussed.

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Держатели документа:
Inst Biophys SB RAS, Krasnoyarsk Sci Ctr, Krasnoyarsk, Russia.
Inst Computat Modelling SB RAS, Krasnoyarsk Sci Ctr, Krasnoyarsk, Russia.

Доп.точки доступа:
Belolipetskii, P.V.; Белолипецкий, Павел Викторович; Degermendzhi, A.; RFBR-KKFN [15-41-04300]; Complex Program of SB RAS [II.2, 0360-2015-0002]

: статья / В.В Ничепорчук // Сибирский пожарно-спасательный вестник. - 2018. - № 1. - С. 89-95 . - ISSN 2500-4026
   Перевод заглавия: Modern approaches to forecasting of emergencies

УДК

004

005.584.1

502/504

Аннотация: Приведён анализ методов прогнозирования, используемых в органах управления МЧС России и взаимодействующих ведомств. Предложена методика краткосрочного прогнозирования, интегрирующая прогнозы погоды, средства статистического анализа архивов событий, формализованные характеристики территорий и методы картографической визуализации результатов предиктивного анализа.
This paper presents an analysis of prediction methods of emergency. These methods used now in the management bodies of EMERCOM of Russia. The method of prediction that integrates weather forecasts, statistical analysis, archives of events, formal characteristics of the territories is proposed. The methods of cartographic visualization of analytical results are described.

РИНЦ

Держатели документа:
Институт вычислительного моделирования Сибирского отделения РАН

Доп.точки доступа:
Ничепорчук, В.В; Nichiporchuk V.V.

[Текст] : статья / Валерий Васильевич Ничепорчук, Александр Ильич Ноженков // Информатизация и связь. - 2013. - № 5. - С. 37-42 . - ISSN 2078-8320
   Перевод заглавия: Automatization of the monitoring emergency on arctic (The case of Krasnoyarsk Region)

УДК

614.8

004

005.521(571.51)

Аннотация: Представлены результаты работ по созданию Арктического центра мониторинга и прогнозирования чрезвычайных ситуаций. Описаны особенности и проблемы развертывания системы обеспечения комплексной безопасности в условиях Крайнего Севера. Проектирование и реализация функциональных задач центра осуществлялось путём интеграций современных информационных технологий и универсальных программных модулей, используемых для различных задач территориального управления. Реализованную концепцию построения системы обеспечения безопасности жизнедеятельности в Арктике можно использовать для развития единого информационного пространства МЧС России.
The results of the Emergency monitoring and forecasting Arctic Centre creation are presented. Some features and problems of deploying complex security in the Far North are described. Design and realization of the functional tasks for the center is done by integrating modern information technologies and universal software modules that are used for a variety of regional management. This concept of creation a system to regional safety in the Arctic can be used for the development of a common information space Emercom of Russia.

РИНЦ

Держатели документа:
ИВМ СО РАН

Доп.точки доступа:
Ничепорчук, Валерий Васильевич; Nicheporchuk V.V.; Ноженков, Александр Ильич; Nozhenkov A.I.

/ M. G. Erunova [et al.] // IOP Conference Series: Earth and Environmental Science : Institute of Physics Publishing, 2019. - Vol. 315: International Scientific Conference on Agribusiness, Environmental Engineering and Biotechnologies, AGRITECH 2019 (20 June 2019 through 22 June 2019, ) Conference code: 152072, Is. 3. - Ст. 032022, DOI 10.1088/1755-1315/315/3/032022 . -
Аннотация: The experience of implementation of GIS and web technologies for regional agriculture of the Krasnoyarsk territory is considered. The experimental agricultural enterprise "Minino", located near the city of Krasnoyarsk, was chosen as a pilot project. For this agricultural enterprise, the comprehensive digital model using geographic information systems, remote sensing and web mapping data processing techniques and software is created. A geospatial database, which contains relevant and archival information about agricultural fields, varieties, crops, soil, particle size distribution, soil-forming rocks, terrain features, has been developed. A series of technological digital maps and cartograms have been created in which information on crop rotations and cultivated crops is concentrated. Archives of available multispectral satellite data of high spatial resolution on the considered territory are analyzed. As a result, a multi-layer electronic map of the agricultural enterprise was created, which contains all available information and can be used for modeling and forecasting crop yields, agricultural planning. The developed methods and software and technological solutions can become a methodological basis for a new generation of information and analytical systems and technologies to support management decisions in the agricultural sector. © 2019 IOP Publishing Ltd. All rights reserved.

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Держатели документа:
Federal Research Center, Krasnoyarsk Science Center, SB RAS, Krasnoyarsk, Russian Federation
Krasnoyarsk Research Institute of Agriculture, Federal Research Center, Krasnoyarsk Science Center, SB RAS, Krasnoyarsk, Russian Federation
Siberian Federal University, Krasnoyarsk, Russian Federation
Institute of Computational Modelling, SB RAS, Krasnoyarsk, Russian Federation

Доп.точки доступа:
Erunova, M. G.; Shpedt, A. A.; Trubnikov, Y. N.; Yakubailik, O. E.

/ V. G. Sibgatulin, S. A. Peretokin, A. A. Kabanov, K. V. Simonov // CEUR Workshop Proceedings : CEUR-WS, 2019. - Vol. 2534: 2019 All-Russian Conference ""Spatial Data Processing for Monitoring of Natural and Anthropogenic Processes"", SDM 2019 (26 August 2019 through 30 August 2019, ) Conference code: 156641. - P359-365 . -
Аннотация: The work is devoted to the development of geomonitoring methods for predicting strong earthquakes and assessing the stress-strain state of the geological environment. The results of observations of precursors of various nature in geodynamic polygons in Siberia and the Far East in the period 2007-2018 are presented. Copyright © 2019 for this paper by its authors. Use permitted under Creative Commons License Attribution 4.0 International (CC BY 4.0).

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Держатели документа:
NP «Environmental Management of Natural Recourses Center», Krasnoyarsk, Russian Federation
Institute of Computational Technologies SB RAS, SDTB «Nauka», Krasnoyarsk, Russian Federation
Institute of Computational Modeling SB RAS, Krasnoyarsk, Russian Federation

Доп.точки доступа:
Sibgatulin, V. G.; Peretokin, S. A.; Kabanov, A. A.; Simonov, K. V.