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Глава
Lazareva O., Rachinsky A., Stepanov S. In bk.: Corporate Governance in Transition Economies. Springer, 2009.
Добавлено: 24 августа 2015
Глава
Abdulrab H., Babkin E., Kozyrev O. In bk.: 1-я Международная конференция по бизнес-информатике. Труды международной научно-практической конференции, 9-11октября 2007 г., Россия, Московская обл., Звенигород. M.: Higher School of Economics Publishing House, 2007.
Добавлено: 21 мая 2014
Глава
Radchenko I., Koznov D., Andreeva O. et al. In bk.: Proceedings of the 8th International Joint Conference on Knowledge Discovery, Knowledge Engineering and Knowledge Management - (Volume 3). Vol. 3. SciTePress, 2016. P. 173-180.
Добавлено: 29 сентября 2018
Глава
Domansky V. C., Kreps V. L., Sandomirskaia M. In bk.: Contributions to game theory and management. Iss. 6. St. Petersburg: Graduate School of Management, St. Petersburg University, 2013. P. 89-114.
Добавлено: 15 апреля 2014
Глава
Bergelson M., Akinina Y., Shitova N. et al. In bk.: Шестая международная конференция по когнитивной науке: Тезисы докладов. Калининград, 23–27 июня 2014 г.. Iss. 6. Kaliningrad: 2014. P. 728-729.
Добавлено: 19 ноября 2014
Глава
Bardelli L., Valbonesi P. In bk.: Facing the Challenges of Water Governance. Iss. 1. Palgrave Macmillan, 2019. Ch. 2. P. 57-83.
Добавлено: 6 декабря 2018
Глава
Bernstein A., Kuleshov A. P., Yanovich Y. In bk.: Abstructs of the 29-th European Meeting of Statisticians. Budapest: Bernoulli Society, 2013. P. 325-325.

Let X be an unknown nonlinear smooth q-dimensional Data manifold (D-manifold) embedded in a p-dimensional space (p> q) covered by a single coordinate chart. It is assumed that the manifold's condition number is positive so X has no self-intersections. Let Xn={X1, X2,..., Xn}⊂ X⊂ Rp be a sample randomly selected from the D-manifold Xindependently of each other according to an unknown probability measure on X with strictly positive density.

Добавлено: 24 сентября 2015
Глава
Mozgunov P., Kelbert M. In bk.: Proceedings of Information Technology and Systems 2015. Sochi: 2015. P. 614-621.
Добавлено: 5 декабря 2015
Глава
Parusnikova A. In bk.: International Conference “Painlevґe Equations and Related Topics”. St. Petersburg: The Euler International Mathematical Institute, 2011. P. 126-131.

С помощью Степенной геометрии мы получили все асимптотические разложения решений пятого уравнения Пенлеве следующих пяти типов: степенные, степенно-логарифмические, сложные, экзотические и полуэкзотические при всех значениях четырёх комплексных параметров уравнения. Они образуют 16 и 30 семейств в окрестности бесконечности и нуля соответственно. В окрестности неособой точки уравнения существуют 10 семейств разложений. Более 20 семейств являются новыми.

Добавлено: 16 апреля 2012
Глава
Parusnikova A. In bk.: Banach Center Publications. Vol. 97: Formal and Analytic Solutions of Differential and Difference Equations,. Warsz.: Polish Academy of Sciences, 2012. P. 113-124.

Applying methods of plane Power Geometry we are looking for the asymptotic expansions of solutions to the fifth Painleve ́ equation in the neighbourhood of its singular and nonsingular points.

Добавлено: 24 марта 2013
Глава
Liudmila Kuzmina, Osipov Y. V., Tzariova V. In bk.: IOP Conference Series: Materials Science and Engineering 1030 (2021) VII International Scientific Conference "Integration, Partnership and Innovation in Construction Science and Education" (IPICSE 2020) 11th-14th November 2020, Tashkent, Uzbekistan. Vol. 1030: VII International Scientific Conference "Integration, Partnership and Innovation in Construction Science and Education" (IPICSE 2020) 11th-14th November 2020, Tashkent, Uzbekistan. IOP Publishing, 2021. Ch. 012109. P. 1-7.
Добавлено: 3 июля 2021
Глава
Roman A. Nesterov, Irina A. Lomazova. In bk.: Proceedings of the MACSPro Workshop 2019. Vol. 2478: CEUR Workshop Proceedings. CEUR-WS.org, 2019. P. 62-73.

Process models discovered from event logs of multi-agent systems may be complicated and unreadable. To overcome this problem, we suggest using a compositional approach. A system model is composed from agent models w.r.t. an interface. Morphisms guarantee that composition of correct models is correct. This study contributes to the practical implementation of the morphism-based compositional approach. We use interaction patterns to model typical interfaces. Experimental evaluation justifies the practical value of the compositional approach.

Добавлено: 10 октября 2019
Глава
Kuznetsov P., Tohkikh A. In bk.: 34th International Symposium on Distributed Computing. Dagstuhl Publishing, 2020. P. 1-37.
Добавлено: 14 октября 2021
Глава
Alexander Legalov, Romanova D. In bk.: ICCS-DE 2020. International Workshop on Information, Computation, and Control Systems for Distributed Environments. Vol. 2638 : Proceedings of the 2nd International Workshop on Information, Computation, and Control Systems for Distributed Environments. CEUR Workshop Proceedings, 2020. P. 181-190.
Добавлено: 21 октября 2020
Глава
Kazantsev N., Roslovtsev V., Shumsky L. In bk.: ISKO-Maghreb, 2013 3rd International Symposium. Marrakech: IEEE, 2014. P. 1-7.

This paper is dedicated to the implementation considerations of a canonical model of subject areas in the integration bus and to the definition of data mapping corresponding to this model. The proposed approach to transforming data, when transferring them between individual applications or services of the system, is to convert input messages into output messages using an intermediate canonical representation of the data via rules that map the source model to the canonical one, and the canonical model to the target. Since the canonical model of a subject area serves a technical important task and is not intended for human use, it may be generated automatically instead of manually and designed `from scratch', as a `union' of models used in the various application parts of the system. Subject area models of the application parts being integrated may be written using different formalisms, and yet another formalism may be used for the canonical model, so that a mechanism is required to automatically capture various concepts expressed in various formal systems. In the present paper we focus on developing such a mechanism, based on the automatic generation of a (somewhat simplified) representation of the most important kinds of entities in the canonical model.

Добавлено: 22 августа 2014
Глава
Karpov V. E. In bk.: Smart Modelling for Engineering Systems. Proceedings of the International Conference on Computational Methods in Continuum Mechanics (CMCM 2021), Volume 2 Part of the Smart Innovation, Systems and Technologies book series (SIST, volume 215). Singapore: Springer, 2021.
Добавлено: 18 июня 2021
Глава
Mokrii I., Boytsov L., Braslavski P. In bk.: SIGIR '21: Proceedings of the 44th International ACM SIGIR Conference on Research and Development in Information Retrieval. ACM, 2021. P. 2081-2085.
Добавлено: 11 августа 2021
Глава
Kuznetsov S., Neznanov A., Poelmans J. In bk.: Proceedings, Workshop “What can FCA do for Artificial Intelligence?” of the ECAI 2012 conference. M.: CEUR Workshop Proceedings, 2012. Ch. 12. P. 81-87.
Добавлено: 30 января 2013
Глава
Chigorin A., Konushin Anton. In bk.: ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. II-3/W3: CMRT13 – City Models, Roads and Traffic 2013. ISPRS, 2013. P. 13-17.
Добавлено: 10 июля 2014
Глава
Oleg Gabelko. In bk.: Deformations and Crises of Ancient Civil Communities.. Stuttgart: Franz Steiner Verlag, 2015.

В работе рассматривается ряд моментов политической истории эллинистической Малой Азии в кон. III в. до н.э.

Добавлено: 6 ноября 2017
Глава
Voronovici A. In bk.: Diversity in the East-Central European Borderlands: Memories, Cityscapes, People. ibidem Verlag; Columbia University Press, 2021. P. 297-332.
Добавлено: 19 октября 2021