Source: http://www.mtas.ru/person/detail.php?ID=5274
Timestamp: 2019-04-25 18:04:53+00:00

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Born 1977 in Chelyabinsk, USSR.
Dr. Sci. (equivalent to Habilitation degree) in Mathematics and Physics from Trapeznikov Institute of Control Sciences of RAS, 2014 (Systems Analysis, Control, and Communication). The thesis title: "Mathematical models and methods for hierarchical structure optimization in information systems" (see the manuscript in Russian).
Cand. Sci. (equivalent to PhD) in Engineering from Trapeznikov Institute of Control Sciences of RAS, 2003 (Control in Social and Economic Systems). The thesis title: "Coalition-proof mechanism design in organizations" (see the book in Russian).
MS in Applied Mathematics and Physics from the Moscow Institute of Physics and Technology (Dept. of Radio-Engineering and Cybernetics), 2000. The thesis title: "Coalition-proof mechanisms of resource allocation in organizations".
BS in Applied Mathematics and Physics from the Moscow Institute of Physics and Technology (Dept. of Radio-Engineering and Cybernetics), 1998. The thesis title: "Moral hazard for the "simple" agent".
Mathematical methods of complex systems' structure optimization and their application anywhere: from computer science and chemistry to management and logistics.
Are there common laws in formation of an organic molecule, structuring an organization, or growing a decision tree? Mathematics gives the positive answer!
A system is a collection of elements connected with links, which form the structure of the system. Rational structures of natural systems are the result of survival, while the optimal structure of an artificial system must be planned at the design time. Systems science allows catching common properties of very diverse problems in the range from communication network design to business processes enhancement, while combinatorial optimization provides the toolkit of universal solution methods.
In the classic Huffman algorithm lying in the core of most archiving utilities an optimal coding tree is built in a bottom-up fashion by sequentially joining the roots of two branches of minimum “weight” under a single node. It can be surprising to get know that organic molecules with the lowest boiling temperature follow the similar formation rule. The same formula is used to calculate both the optimal user menu breadth (the number of options simultaneously available to a user on a screen of his or her iPhone for the most convenient navigation), and the optimal span of control (the number of immediate subordinates) in an efficient organization structure.
Many other general laws in complex structure design are revealed during the ongoing long-term fundamental research program. The developed algorithms, routines, and analytical techniques find their application in technology and management.
XIII All-Russian Conference "Control in Large-Scale Systems", Samara, Russia (2016), "Methods for Structure Optimization in Complex Systems"
XXXVII session of "Cybernetics of Power Systems" seminar, Novocherkassk, Russia (2015), "Control problems in Power Grids"
International Conference “Theory of Active Systems”, Moscow, Russia (2014), "Optimizing structure of active systems"
Rich experience (since 1998) of Oracle business applications (OEBS, OFA, Hyperion, etc) implementation projects for Russian oil and gas industry (Consultant, Group Leader, Functional Architect, and Project Manager).
Alpine Skiing, winner of ICS RAS championship (2008, 2009, 2011).
Maximizing Wiener index for trees with given vertex weight and degree sequences // Applied Mathematics and Computation, 2018, Vol. 316, P. 102–114.
(with Miloserdov O., Yampolskii Yu., Alentiev A., Ryzhikh V.) A novel model to predict infinite dilution solubility coefficients in glassy polymers // Journal of Polymer Science Part B: Polymer Physics. 2016. V. 55, No 3. P. 228-244.
Minimizing Wiener Index for Vertex-Weighted Trees with Given Weight and Degree Sequences, MATCH Commun. Math. Comput. Chem., 2016, V. 75, No 1, P. 3-27.
(with O. Miloserdov) Simple Alcohols with the Lowest Normal Boiling Point Using Topological Indices, MATCH Commun. Math. Comput. Chem. 2016, V. 75, No 1 P. 29-56.
(with C. Magnant, P. Salehi Nowbandegani, I. Gutman) ABC Index of Trees with Fixed Number of Leaves, MATCH Commun. Math. Comput. Chem., V. 74, No 3. P. 697-701.
(with T. Reti) Note on Minimizing Degree-Based Topological Indices of Trees with Given Number of Pendent Vertices // MATCH Commun. Math. Comput. Chem. 2014. V. 72, No 3. pp. 633-639.
(with I. Gutman) Degree-based topological indices: Optimal trees with given number of pendents // Applied Mathematics and Computation. V. 240, 1 August 2014, P. 387–398.
Minimizing Degree-Based Topological Indices for Trees with Given Number of Pendent Vertices // MATCH Commun. Math. Comput. Chem. 2014. V. 71, No 1. P. 33-46.
(with A.I. Danilenko) Semantic-aware optimization of user interface menus // Automation and Remote Control, August 2013, Volume 74, Issue 8, pp 1399-1411 (translation from Russian).
(with V.N. Burkov, N.A. Korgin, and D.A. Novikov) Integrated Mechanisms of Organizational Behavior Control // Advances in Systems Science and Application. 2013. Vol. 13. № 2. P. 1 – 9.
(with V.N. Burkov, N.A. Korgin, and D.A. Novikov) Mechanisms of Organizational Behavior Control: A Survey // Advances in Systems Science and Application. 2013. Vol. 13. № 1. P. 1 – 13.
(с И.О. Волковой, Е.А. Сальниковой) Активный потребитель: задача оптимизации потребления электроэнергии и собственной генерации // Проблемы управления. 2013. №6. С. 53-61.
(совместно с А.И. Даниленко) Оптимизация пользовательских меню с учётом семантического качества // Проблемы управления. 2012. № 2. С. 53-63.
(совместно с В.Н. Бурковым, Н.А. Коргиным, Д.А. Новиковым) Теория управления организационными системами и другие науки об управлении организациями // Проблемы управления. 2012. № 4. С. 2-10.
(совместно с В.Н. Бондариком, С.И. Ивановой) Математическая модель оптимизации организационных структур стратегического развития // Экономика и менеджмент систем управления 3.1(5), 2012, С. 110-131.
(совместно с Н.В. Константиновой) Многоканальные организационные структуры и внедрение информационных систем управления // Системы управления и информационные технологии, №1(47), 2012. – С. 50-55.
(совместно с Н. А. Коргиным, Д. А.Новиковым) Управление организационными системами: современные научные направления. // Проблемы теории и практики управления. № 12. 2011. С. 62-71.
(совместно с Даниленко А.И.) Математическая модель оптимизации структуры иерархического меню. Проблемы управления. № 4, 2010. С. 49-58.
Оптимальные иерархии управления для функций затрат, представимых в виде суммы однородных функций // Проблемы управления, 2009. №3. С. 44-53.
Алгоритмы построения субоптимальных организационных иерархий / Автоматика и телемеханика. 2009. №1. C. 162-179.
Математические модели формирования рациональных организационных иерархий // Автоматика и телемеханика, №9, 2008. С. 114-139.
Поиск оптимальных организационных иерархий при однородных функциях затрат менеджеров // Автоматика и телемеханика, №1, 2008. С. 97-113.
(совместно с Баскаковым А.С., Семеновым П.И.) Модель выбора оптимальной древовидной иерархии // Системы управления и информационные технологии, №1.1(23), 2006. С. 20-22.
Управление организационными системами с сетевым взаимодействием агентов. Часть 2. Задачи стимулирования. // Автоматика и телемеханика. №9. 2004. С. 131-148.
Управление организационными системами с сетевым взаимодействием агентов. Часть 1. Обзор теории сетевых игр. // Автоматика и телемеханика. №8. 2004. С. 115-132.
Модель формирования бизнес-схем в транснациональных корпорациях // Системы управления и информационные технологии, 2003, 1-2(12), C. 44-48.
Структура оптимальной организации континуума исполнителей // Автоматика и телемеханика. 2002. № 12. С. 116 – 130.
(с Караваевым А.П.) Согласование интересов в матричных структурах управления // Автоматика и телемеханика. №10. 2001.
Optimal Organizational Structures for Change Management in Production, in: "New Frontiers in Information and Production Systems Modelling and Analysis Incentive Mechanisms, Competence Management, Knowledge-based Production" (Ed.: Różewski, P., Novikov, D., Bakhtadze, N., Zaikin, O.). Springer, 2016. P. 59-83.
A co-author in "Burkov V., Goubko M., Korgin N., Novikov D. Introduction to Theory of Control in Organizations. - Boca Raton: CRC Press, 2015."
Воронин А.А., Губко М.В., Мишин С.П., Новиков Д.А. Математические модели организаций: учебное пособие. -М.: ЛЕНАНД, 2008.
Математические модели оптимизации иерархических структур. - М.: ЛЕНАНД, 2006.
Управление организационными системами с коалиционным взаимодействием участников. М.: ИПУ РАН, 2003.
Губко М.В., Новиков Д.А. Теория игр в управлении организационными системами. М.: Синтег, 2002.
(with Chirkin V., Goldstein M., Gorbunov A., Korepanov V., Korgin N., Sayfutdinov T., Sharova A., Vaskovskaya T.) Gaming Experiments for Analysis of Pricing Mechanisms at Electricity Markets // IFAC-PapersOnLine, V. 49, No 32, 2016. Proceedings of Cyber-Physical & Human-Systems CPHS 2016 Conference, P. 13-18.
(with Kuznetsov S. O., Neznanov A. A., Ignatov D. I.) Bayesian Learning of Consumer Preferences for Residential Demand Response / IFAC-PapersOnLine, 2016, V. 49, No 32. Cyber-Physical & Human-Systems CPHS 2016 Conference, P. 24-29.
(with A. Varnavsky) Users' preference share as a criterion for hierarchical menu optimization / Proceedings of the 8th ACM SIGCHI Symposium on Engineering Interactive Computing Systems, 21-24 June 2016, Brussels, Belgium, P. 305-310.
Hierarchy optimization: theory and applications / Extended Abstracts of International Workshop "Networking games and management" (NGM-2012, Petrozavodsk). Petrozavodsk: KarRC, 2012. С. 20-22.
Model of supply network formation management / Collected abstracts of papers presented on the Sixth International Conference Game theory and Management. SPb.: Graduate School of Management SPbU. 2012. P. 91-92.
Heuristic algorithm for optimal tree search / Abstracts of the 25th Conference of European Chapter of Combinatorial Optimization (ECCO'2012). 26-69 April 2012. P. 24-25.
Lower-bound Estimate for Cost-sensitive Decision Trees // Preprints of the 18th IFAC World Congress, Milano (Italy), August 28 - September 2, 2011. P. 9005-9010.
(with Burkov V.N.) Combining Incentive Schemes with Mechanisms of Counter Planning and Plan Adjustment // Game theory and Management. Collected abstracts of papers presented on the Fifth International Conference Game theory and Management. SPb.: Graduate School of Management SPbU, 2011. P. 40-42.
Models of Network Formation Game Control // Game Theory and Management. Collected abstracts of papers, presented in the IV International Conference "Game Theory and Management", Gradual School of Management, SPbU, 2010. pp. 64-67.
(with Novikov D.) Game-theoretical Models and Methods of the Organizational Systems Control Theory // Game Theory and Management. Collected abstracts of papers, presented in the International Conference "Game Theory and Management", Gradual School of Management, SPbU, 2008.
(with Mishin S.) Optimal Hierarchies in Firms: a Theoretical Model // Proceedings of the 17th World Congress of the IFAC, Seoul, Korea, July 6-11, 2008. P. 2962-2967.
(with Mishin S.) Models of Optimal Organizational Hierarchies // Game Theory and Management. Collected abstracts of papers, presented in the International Conference "Game Theory and Management", Gradual School of Management, SPbU, 2008. p.132-134.
(with Novikov D.A.) Magement in organizations: collective decision-making / Proceedings of the 16-th International Conference on Systems Engineering, Coventry, 2004. Vol. 2, P. 515 – 519.
Click here to see the complete up-to-date list.
Интерактивные системы оптимизации иерархических структур // Управление большими системами. Материалы VII Всероссийской школы-конференции молодых ученых. Том 2. Пермь: Издательство ПГТУ. 2010. С. 236-243.
(совместно с Мишиным С.П.) Оптимальная структура системы управления технологическими связями / Материалы международной научной конференции «Современные сложные системы управления». Старый Оскол: СТИ, 2002. С. 50 – 54.
(with I. Gutman) Trees with fixed number of pendent vertices with minimal first Zagreb Index // Bulletin of International Mathematical Virtual Institute, 2013. Vol. 3(2). P. 161-164.
Лекции по принятию решений в условиях нечеткой информации. 2004.
Управление организационными системами: сказка для научных сотрудников младшего возраста. 2005.
Лекция для абитуриентов МФТИ "Умные механизмы управления"

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