Publications

  1. Alexander Degtyarev and Ivan Gankevich. 2016. Balancing Load on a Multiprocessor System with Event-Driven Approach Gavrilova, L. Marina, Tan, & C. J. Kenneth, eds. Transactions on Computational Science 27 (2016), 35–52. [doi]
  2. Alexander Degtyarev and Vasily Khramushin. 2016. Coordinate systems, numerical objects and algorithmic operations of computational experiment in fluid mechanics. In Gh. Adam, J. Busa, & M. Hnatic, eds. EPJ Web of Conferences. EDP Sciences, 6 p. [doi]
  3. Alexander Bogdanov, Alexander Degtyarev, and Vladimir Korkhov. 2016. New approach to the simulation of complex systems. In Gh. Adam, J. Busa, & M. Hnatic, eds. EPJ Web of Conferences. EDP Sciences, 11 p. [doi]
  4. А.В. Богданов, В.В. Мареев, Э.А. Степанов, и М.В. Панченко. 2015. Моделирование поведения опционов. Формулировка проблемы. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015 г.), 759–766.
  5. A.V. Bogdanov and Thurein Kyaw Lwin. 2015. Query optimization in relational database systems and cloud computing technology. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015), 649–655.
  6. A.V. Bogdanov, K. Zaya, and Sone K. Ko. 2015. Improvement of computational abilities in computing environments with virtualization technologies. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015), 499–504.
  7. A.V. Bogdanov, K.Ko. Sone, and K. Zaya. 2015. Performance of the OpenMP and MPI implementations on UltraSPARC system. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015), 485–491.
  8. Nikolai Iuzhanin, Tatiana Ezhakova, Valery Zolotarev, and Vladimir Gaiduchok. 2015. Development of the Configuration Management System of the Computer Center and Evaluation of Its Impact on the Provision of IT Services. Lecture Notes in Computer Science 9158 (2015), 249–258.
  9. A.B. Degtyarev and V.N. Khramushin. 2015. Coordinate Systems, Numerical Objects and Algorithmic Operations of Computational Experiments in Fluid Mechanics. International Conference on Mathematical Modeling and Computational Physiscs (MMCP-2015), Book of Abstracts. FEE&I TU Kosice, 2015 , 50 (2015).
  10. A.V. Bogdanov and V.N. Khramushin. 2015. Tensor Arithmetic, Geometry and Mathematical Principles of Fluid Mechanics in the Implementation of Direct Computational Experiments. International Conference on Mathematical Modeling and Computational Physiscs (MMCP-2015), Book of Abstracts. FEE&I TU Kosice, 2015 (2015), 43.
  11. Vladimir Korkhov et al. 2015. Experience in Building Virtual Private Supercomputer. In International Conference on Computer Science and Information Technologies. 220–223.
  12. S.A. Abrahamyan, S.G. Balyan, and A.G. Muradov. 2015. The software for decision-making and e-collaboration based on the mobile infrastructure N. V. Smirnov, ed. The XLVI annual international conference on Control Processes and Stability (CPS’15). Abstracts (2015), 64.
  13. С.А. Абраамян, С.Г. Балян, и А.Г. Мурадов. 2015. Программное обеспечение совместного принятия решений на основе мобильных инфраструктур Н. В. Смирнов, ред. Процессы управления и устойчивость 2, 18 (2015 г.), 333–339.
  14. A. Yuzhanin, I. Gankevich, E. Stepanov, and V. Korkhov. 2015. Efficient Asian option pricing with CUDA. In Proceedings of International Conference on High Performance Computing Simulation (HPCS), 2015. Institute of Electrical and Electronics Engineers (IEEE), 623–628. [doi]
  15. A. Bogdanov, V. Gaiduchok, Nabil Ahmed, Amissi Cubahiro, and I. Gankevich. 2015. Profiling Scheduler for Efficient Resource Utilization. Lecture Notes in Computer Science 9158 (2015), 299–310. [doi]
  16. I. Gankevich, Yu. Tipikin, and V. Gaiduchok. 2015. Subordination: Cluster management without distributed consensus. In Proceedings of International Conference on High Performance Computing & Simulation (HPCS), 2015. Institute of Electrical and Electronics Engineers (IEEE), 639–642. [doi]
  17. N.V. Yuzhanin, Yu. A. Tipikin, I.G. Gankevich, and V.I. Zolotarev. 2015. Computational task tracking complex in the scientific project informational support system. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015), 615–620.
  18. I.G. Gankevich, S.G. Balyan, S.A. Abrahamyan, and V.V. Korkhov. 2015. Applications of on-demand virtual clusters to high performance computing. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015), 511–516.
  19. A.V. Bogdanov, I.G. Gankevich, V.Yu. Gayduchok, and N.V. Yuzhanin. 2015. Running applications on a hybrid cluster. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015), 475–483.
  20. Alexander Bogdanov, Alexander Degtyarev, Vladimir Korkhov, Vladimir Gaiduchok, and Ivan Gankevich. 2015. Virtual Supercomputer as basis of Scientific Computing. In Thomas S. Clary, ed. Horizons in Computer Science Research. New York: Nova Science Publishers, Inc., 159–198.
  21. A.B. Degtyarev, Myo Min Swe, and Wunna Kyaw. 2015. Cloud Computing for Virtual Testbed. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015), 753–758.
  22. O.O. Iakushkin, A.B. Degtyarev, and S.V. Shvemberger. 2015. Decomposition of the modeling task of some objects of archeological research for processing in a distributed computer system. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015), 533–537.
  23. V.P. Guskov et al. 2015. An interactive tool for developing distributed telemedicine systems. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015), 521–528.
  24. I.G. Gankevich and A.B. Degtyarev. 2015. Efficient processing and classification of wave energy spectrum data with a distributed pipeline. КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015), 517–520.
  25. А.В. Богданов, А.Б. Дегтярев, и В.Н. Храмушин. 2015. Высокопроизводительные вычисления на гибридных системах: будут ли решены “задачи большого вызова”? КОМПЬЮТЕРНЫЕ ИССЛЕДОВАНИЯ И МОДЕЛИРОВАНИЕ 7, 3 (2015 г.), 429–438.
  26. I. Gankevich, Y. Tipikin, A. Degtyarev, and V. Korkhov. 2015. Novel Approaches for Distributing Workload on Commodity Computer Systems. Lecture Notes in Computer Science 9158 (2015), 259–271. [doi]
  27. I. Gankevich and A. Degtyarev. 2015. Computation of Pressures in Inverse Problem in Hydrodynamics of Potential Flow. In Proceedings 12th International Conference on the Stability of Ships and Ocean Vehicles. 1117–1122.
  28. Serob Balyan, Suren Abrahamyan, Harutyun Ter-Minasyan, Alfred Waizenauer, and Vladimir Korkhov. 2015. Distributed collaboration based on mobile infrastructure. Lecture Notes in Computer Science 9158 (2015), 354–368.
  29. Vladimir Korkhov, Sergey Kobyshev, and Artem Krosheninnikov. 2015. Flexible configuration of application-centric virtualized computing infrastructure. Lecture Notes in Computer Science 9158 (2015), 342–353.
  30. Alexander V. Bogdanov, Thurein Kyaw Lwin, and Elena and Stankova. 2015. Storage Database System in the Cloud Data Processing on the Base of Consolidation Technology O. Gervasi, ed. Lecture Notes in Computer Science LNCS 9158 (2015), 311–320. [doi]
  31. Alexander V. Bogdanov, Vladimir V. Mareev, and Elena N. and Stankova. 2015. Hybrid Approach Perturbed KdVB Equation. O. Gervasi, ed. Lecture Notes in Computer Science 9158, Part IV (2015), 331–341. [doi]
  32. A. Degtyarev and I. Gankevich. 2015. Hydrodynamic Pressure Computation under Real Sea Surface on Basis of Autoregressive Model of Irregular Waves. Physics of Particles and Nuclei Letters 12, 3 (2015), 389–391. [doi]
  33. V. Guskov et al. 2014. An interactive tool for developing distributed telemedicine systems. Book of Abstracts of the 6th International Conference on Distributed Computing and Grid-Technologies in Science and Education (2014), 30.
  34. N. Kulabukhova. 2014. Analysis of Space Charge Dynamics in terms of HPC. In 20th International Workshop on Beam Dynamics and Optimization (BDO), 2014. [doi]
  35. Spiros Koulouzis, Dmitry Vasyunin, Reginald Cushing, Adam Belloum, and Marian Bubak. 2014. Cloud Data Federation for Scientific Applications. Lecture Notes in Computer Science 8374 (2014), 13–22.
  36. А.В. Богданов, В.В. Мареев, Э.А. Степанов, и М.В. Панченко. 2014. О корректности постановки задачи ценообразования азиатского опциона. В СОВРЕМЕННЫЕ МЕТОДЫ ПРИКЛАДНОЙ МАТЕМАТИКИ, ТЕОРИИ УПРАВЛЕНИЯ И КОМПЬЮТЕРНЫХ ТЕХНОЛОГИЙ(ПМТУКТ-2014). 44–46.
  37. А.В. Богданов, В.В. Мареев, Э.А. Степанов, и М.В. Панченко. 2014. Влияние экстремальных значений параметров на решение задачи ценообразования азиатских опционов. СОВРЕМЕННЫЕ МЕТОДЫ ПРИКЛАДНОЙ МАТЕМАТИКИ, ТЕОРИИ УПРАВЛЕНИЯ И КОМПЬЮТЕРНЫХ ТЕХНОЛОГИЙ(ПМТУКТ-2014) (2014 г.), 42–44.
  38. N.V. Yuzhanin and V.I. Zolotarev. 2014. The solution of supercomputer tasks tracking problem with use of service desk system. The XLV annual international conference on Control Processes and Stability (CPS’14). Abstracts (2014), 82.
  39. Y.A. Tipikin. 2014. Transactional Mechanism for RESTful Web Services. The XLV annual international conference on Control Processes and Stability (CPS’14). Abstracts (2014), 78.
  40. D.E. Gushchanskiy. 2014. A method of text extraction from scientific articles in PDF format. The XLV annual international conference on Control Processes and Stability (CPS’14). Abstracts (2014), 60.
  41. S.G. Balyan, R.V. Ralovets, S.A. Abrahamyan, and N.V. Yuzhanin. 2014. Functionalities of virtual cluster management system FishDirector and check of its efficiency. The XLV annual international conference on Control Processes and Stability (CPS’14). Abstracts (2014), 55.
  42. I. Gankevich and A. Degtyarev. 2014. Efficient processing and classification of wave energy spectrum data with a distributed pipeline. Book of abstracts of the 6th International Conference on Distributed Computing and Grid Technologies in Science and Education (2014), 25.
  43. V. Gaiduchok, N. Yuzhanin, I. Gankevich, and A. Bogdanov. 2014. Running Applications on a Hybrid Cluster. Book of abstracts of the 6th International Conference on Distributed Computing and Grid Technologies in Science and Education (2014), 24.
  44. Д.Е. Гущанский. 2014. Метод извлечения текста из научных статей в формате PDF. Процессы управления и устойчивость 1(17) (2014 г.), 308–313.
  45. N.V. Kulabukhova, S.N. Andrianov, A. Bogdanov, and A. Degtyarev. 2014. Simulation of Space Charge Dynamics on HPC. In IPAC 2014: Proceedings of the 5th International Particle Accelerator Conference. ГЕРМАНИЯ: JACoW, 1609–1611.
  46. А.В. Богданов, Я.А. Дегтярева, Н.А. Тихонова, и В.Н. Храмушин. 2014. Интерактивный вычислительный инструментарий глобального вычислительного эксперимента в службе морских оперативных прогнозов. Распределенные вычисления и грид-технологии в науке и образовании (Grid-2014, Distributed Computing and Grid-Technologies in Science and Education) (2014 г.), 85–86.
  47. Н.В. Южанин и В.И. Золотарев. 2014. Решение проблемы слежения за вычислительными задачами на суперкомпьютерах при помощи системы service desk. Процессы управления и устойчивость 1(17) (2014 г.), 413–418.
  48. A.V. Bogdanov, V.V. Mareev, and E.N. Stankova. 2014. High Performance Algorithms for Multiphase and Multicomponent Media. In Proceeding Book of the 14th International Ship Stability Workshop. 242–245.
  49. В.Ю. Гайдучок, В.В. Корхов, Р.В. Раловец, и Н.В. Южанин. 2014. ВЫБОР СИСТЕМЫ УПРАВЛЕНИЯ ВИРТУАЛЬНЫМИ КЛАСТЕРАМИ НА ПРИМЕРЕ ВЫЧИСЛИТЕЛЬНОГО ЦЕНТРА СПбГУ. В СОВРЕМЕННЫЕ МЕТОДЫ ПРИКЛАДНОЙ МАТЕМАТИКИ, ТЕОРИИ УПРАВЛЕНИЯ И КОМПЬЮТЕРНЫХ ТЕХНОЛОГИЙ (ПМТУКТ-2014). 81–83.
  50. С.Г. Балян, Р.В. Раловец, С.А. Абраамян, и Н.В. Южанин. 2014. Функциональности системы управления виртуальными кластерами FishDirector и проверка ее эффективности. Процессы управления и устойчивость 1 (2014 г.), 283–288.
  51. И.Г. Ганкевич и А.Б. Дегтярев. 2014. Методы распределения нагрузки на многопроцессорную систему Н. В. Смирнов, ред. Процессы управления и устойчивость 1(17) (2014 г.), 295–300.
  52. A. Degtyarev and I. Gankevich. 2014. Calculation Scheme for Wave Pressures with Autoregression Method. In 14th International Ship Stability Workshop. 135–139. [doi]
  53. A. Degtyarev, V. Khramushin, and V. Mareev. 2014. Design and Construction of Computer Experiments in Fluid Mechanicsand Ship Stability. In 14th International Ship Stability Workshop. 187–198. [doi]
  54. I. Gankevich, S. Balyan, S. Abrahamyan, and V. Korkhov. 2014. Applications of on-demand virtual clusters to high performance computing. Book of abstracts of the 6th International Conference on Distributed Computing and Grid Technologies in Science and Education (2014).
  55. S. Olabarriaga et al. 2014. Scientific Workflow Management - for Whom? In Proceedings of 10th IEEE eScience Conference. Institute of Electrical and Electronics Engineers (IEEE), 298–305. [doi]
  56. G. Terstyanszky, T. Kiss, V. Korkhov, and S.D. Olabarriaga. 2014. Analyzing and Modeling of Medical Data on Distributed Computing Infrastructures. In IEEE CONFERENCE PUBLICATION. IEEE Computer Society, 2918–2927.
  57. Ivan Gankevich et al. 2014. Constructing Virtual Private Supercomputer Using Virtualization and Cloud Technologies. Lecture Notes in Computer Science 8584 (2014), 341–354. [doi]
  58. V. Mareev, A. Bogdanov, and E. Stankova. 2013. Functional integration as a tool for mathematical modelling and high performance algorithms creation. Book of Abstracts of the International Conference Mathematical Modeling and Computational Physics (2013), 57.
  59. А.Б. Дегтярев и И.Г. Ганкевич. 2013. Вычисление гидродинамических давлений под реальной морской поверхностью на основе авторегрессионной модели нерегулярного волнения. В Труды XLV НТК “Проблемы мореходных качеств судов, корабельной гидромеханики и освоения шельфа” (Крыловскре чтения). СПб, 25–29.
  60. А.В. Богданов, Е.Н. Станкова, and Тхурейн Киав Лвин. 2013. Using Distributed Database System and Consolidation Resources for Data Server. In Computer Science and Information Technologies Proceedings of the Conference September 23-27, 2013 Yerevan, Armenia. 290–295.
  61. S. Olabarriaga, M. Jaghoori, V. Korkhov, B.D.C. Van Schaik, and A. van Kampen. 2013. Understanding workflows for distributed computing: nitty-gritty details. In WORKS’11 - Proceedings of the 6th Workshop on Workflows in Support of Large-Scale Science. ACM.
  62. V. Korkhov, A. Ivanov, N. Kulabukhova, A. Bogdanov, and S. Andrianov. 2013. Virtual Accelerator: Distributed Environment for Modeling Beam Accelerator Control System. In Proceedings of International Conference on Computational Science and Its Applications (ICCSA’13). IEEE Computer Society, 166–169. [doi]
  63. A.V. Bogdanov and V.V. Mareev. 2013. Quasiclassical Methods for Perturbed KdVB Equation. Book of Abstracts of the International Conference Mathematical Modeling and Computational Physics (2013), 56.
  64. A. Bogdanov, V. Mareev, V. Gayduchok, M. Panchenko, and E. Stepanov. 2013. Modeling of the behavior of European options in the cloud computing system. Book of Abstracts of the International Conference Mathematical Modeling and Computational Physics (2013), 54.
  65. Nataliia Kulabukhova, Vladimir Korkhov, and Sergey Andrianov. 2013. Virtual Accelerator: Software for Modeling Beam Dynamics. In Proceedings of IX International Conference on Computer Science and Information Tecnologies (CSIT’2013). 305–308.
  66. A. Degtyarev and I. Gankevich. 2013. Hydrodynamic pressure computation under real sea surface on basis of autoregressive model of irregular waves. Book of Abstr. of the international conference “Mathematical Modeling and Computational Physics” (MMCP’13) (2013), 65.
  67. I.G. Gankevich. 2013. MIC architecture performance benchmark in problem of solving stochastic differential equations. The XLIV annual international conference “Control Processes and Stability” (CPS’13) book of abstracts (2013), 18.
  68. I.V. Busko and A.B. Degtyarev. 2013. Parameter identification of sea waves in the onboard intellectual system. Linear case. The XLIV annual international conference Control Processes and Stability (CPS’13). Abstracts (2013), 18.
  69. С. Балян и Р. Акопян. 2013. Средство скрытой защиты программного обеспечения от несанкционированного использования. В Computer Science and Information Technologies (CSIT 2013). Ереван: Ереван: Академия наук, 441–444.
  70. С.Г. Балян. 2013. Об одном способе защиты прикладной программы от несанкционированного использования. ВЕСТНИК ГОСУДАРСТВЕННОГО ИНЖЕНЕРНОГО УНИВЕРСИТЕТА АРМЕНИИ (2013), 102–107.
  71. Dmitry Gushchanskiy. 2013. Ontology Structure and Processing in the Test Generation System. In Proceedings of IX International Conference on Computer Science and Information Tecnologies (CSIT’2013). Yerevan, Armenia, 133–136.
  72. Alexander Degtyarev, Vadim Guskov, and Alexander Eroshkin. 2013. Optimal Service Set Construction for Complex Problem Solution. In Proceedings of IX International Conference on Computer Science and Information Tecnologies (CSIT’2013). Yerevan, Armenia, 323–325.
  73. Ilarion Ishkulov, Alexander Degtyarev, Ivan Gankevich, Vladimir Gaiduchok, Yury Tipikin, and Vladimir Korkhov. 2013. Tools for Modelling and Simulation Cloud Computing Infrastructure. In Proceedings of IX International Conference on Computer Science and Information Tecnologies (CSIT’2013). Yerevan, Armenia, 298–301.
  74. Ivan Gankevich et al. 2013. Virtual Private Supercomputer: Design and Evaluation. In Proceedings of IX International Conference on Computer Science and Information Tecnologies (CSIT’2013). Yerevan, Armenia, 1–6. [doi]
  75. Ivan Gankevich and Alexander Degtyarev. 2013. Model of distributed computations in virtual testbed. In Proceedings of IX International Conference on Computer Science and Information Tecnologies (CSIT’2013). Yerevan, Armenia, 240–244.
  76. Anne Rienstra et al. 2013. Symptom validity testing in memory clinics: Hippocampal-memory associations and relevance for diagnosing mild cognitive impairment. Journal of Clinical and Experimental Neuropsychology 35, 1 (2013), 59–70. [doi]
  77. Vladimir Korkhov, Dagmar Krefting, Tamas Kukla, Gabor Z. Terstyanszky, Matthan W.A. Caan, and D.S. Olabarriaga. 2013. Exploring Workflow Interoperability for Neuroimage Analysis on the SHIWA Platform. Journal of Grid Computing 11, 3 (2013), 505–522. [doi]
  78. S. Andrianov and N. Kulabukhova. 2013. Two and three Dimensional Models for Analytical and Numerical Space Charge Simulation. In Proceedings of the International Particle Accelerator Conference 2013. 2585–2587.
  79. A. Ivanov, S. Andrianov, N. Kulabukhova, R. Maier, Yu. Senichev, and D. Zyuzin. 2013. Testing of Symplectic Integrator of Spin-orbit motion based on matrix formalism. In Proceedings of IPAC 2013. CERN, Geneva, 2582–2584.
  80. Yu. Senichev, R. Maier, D. Zyuzin, and N. Kulabukhova. 2013. SPIN TUNE DECOHERENCE EFFECTS IN ELECTRO- AND MAGNETOSTATIC STRUCTURES. In IPAC 2013: Proceedings of the 4th International Particle Accelerator Conference.
  81. D. Zyuzin, S. Andrianov, and N. Kulabukhova. 2013. DATA MANAGEMENT AND ANALYSIS FOR BEAM DYNAMICS SIMULATION. In Proceedings of the International Particle Accelerator Conference 2013. 927–929.
  82. N. Kulabukhova. 2013. SPACE CHARGE DOMINATED ENVELOPE DYNAMICS USING GPUs. In IPAC 2013: Proceedings of the 4th International Particle Accelerator Conference.
  83. A. Ivanov and N. Kulabukhova. 2013. An IDE for Spin-orbit dynamics simulation. In Proceedings of IPAC 2013. China.
  84. V. Ryabusha, S. Andrianov, and N. Kulabukhova. 2013. CELLULAR AUTOMATON SIMULATING THE MOTION OF THE CHARGED PARTICLES BEAM. In IPAC 2013: Proceedings of the 4th International Particle Accelerator Conference. CERN, Geneva: The Joint Accelerator Conferences Website (JACoW) is an international collaboration that publishes the proceedings of accelerator conferences held around the world. All conferences agree to the policies and requirements for publication. Originally created for the publication of the proceedings of the Asian, European, and North American particle accelerator conferences, P.918–920.
  85. A.S.Z. Belloum et al. 2013. Support for Cooperative Experiments in e-Science: From Scientific Workflows to Knowledge Sharing. In Roterman-Konieczna & Irena, eds. Identification of Ligand Binding Site and Protein-Protein Interaction Area.Series: FOCUS ON STRUCTURAL BIOLOGY. Vol.8. Dordrecht: Springer-Verlag, 167 стр., 135–159. [doi]
  86. A.B. Degtyarev, V.P. Guskov, and A.V. Eroshkin. 2012. Improving the efficiency of distributed intelligent systems. In Distributed Computing and Grid-technologies in Science and Education. Proceedings of 5th International Conference. Дубна: Объединенный институт ядерных исследований (JINR), 81–84.
  87. N.V. Kulabukhova, A.N. Ivanov, V.V. Korkhov, D.A. Vasyunin, and S.N. Andrianov. 2012. Virtual accelerator: grid-oriented software for beam accelerator control system. Book of abstracts of the 5th International Conference on Distributed Computing and Grid Technologies in Science and Education (2012).
  88. S. Madougou et al. 2012. Provenance for distributed biomedical workflow execution. Studies in Health Technology and Informatics 175 (2012), 91–100.
  89. V. Korkhov, D. Krefting, T. Kukla, G. Terstyanszky, M. Caan, and S. Olabarriaga. 2012. Using SHIWA Workflow Interoperability Tools for Neuroimaging Data Analysis Applications. EGI Community Forum’12 book of abstracts (2012), 32.
  90. N. Kulabukhova. 2012. SOFTWARE FOR VIRTUAL ACCELERATOR ENVIRONMENT. In RuPAC 2012 Contributions to the Proceedings - 23rd Russian Particle Accelerator Conference.
  91. N. Kulabukhova. 2012. GPGPU IMPLEMENTATION OF MATRIX FORMALISM FOR BEAM DYNAMICS SIMULATION.
  92. A.B. Degtyarev and A.M. Reed. 2012. Autoregressive Modeling of Ocean Waves. In Proc. of 29th Symp. on Naval Hydrodynamics, Gothenburg, Sweeden, 26-31 Aug. Gothenburg, Sweeden, 21p.
  93. A. Degtyarev and I. Gankevich. 2012. Evaluation of hydrodynamic pressures for autoregression model of irregular waves. In Proceedings of 11th International Conference “Stability of Ships and Ocean Vehicles.” Athens, Greece, 841–852.
  94. В.В. Мареев и Е.Н. Станкова. 2012. Многосеточные методы. Введение в стандартные методы.,
  95. В.В. Мареев и Е.Н. Станкова. 2012. Основы методов конечных разностей,
  96. A.V. Bogdanov and I.G. Gankevich. 2012. Practical Efficiency of Optimizing Compilers in Parallel Scientific Applications. Distributed Computing and Grid-Technologies in Science and Education: Book of Abstr. Of the 5th Intern. Conf. (2012), 39.
  97. A.V. Bogdanov, I.G. Gankevich, V.Yu. Gayduchok, and Pyae Sone Ko Ko. 2012. CPU and GPU Consolidation Based on OpenCL. Distributed Computing and Grid-Technologies in Science and Education: Book of Abstr. Of the 5th Intern. Conf. (2012), 38.
  98. A.V. Bogdanov, A.B. Degtyarev, V.Yu. Gaiduchok, I.G. Gankevich, and V.I. Zolotarev. 2012. Virtual Workspace as a Basis of Supercomputer Center. Distributed Computing and Grid-Technologies in Science and Education: Book of Abstr. Of the 5th Intern. Conf. (2012), 33.
  99. А.В. Богданов, А.Б. Дегтярев, В.В. Мареев, и Ю.И. Нечаев. 2012. Гибкое динамическое объединение ресурсов, или сервисно-ориентированный вычислительный грид. ИНФОРМАЦИОННОЕ ОБЩЕСТВО , 2 (2012 г.), 61–70.
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  107. A. Degtyarev and A. Reed. 2011. Modelling of Incident Waves Near the Ship’s Hull (Application of autoregressive approach in problems of simulation of rough seas). In Proceedings of 12th International Ship Stability Workshop. Washington, USA, 175–187.
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  111. S. Shahand et al. 2011. Front-ends to Biomedical Data Analysis on Grids. In Proceedings of HealthGrid 2011. Bristol, UK.
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  125. С.Г. Бородин и Н.В. Кулабухова. 2010. Графический пароль как альтернатива символьному.
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  131. A. Degtyarev and Yu. Nechaev. 2009. General principles for ship dynamic problems solution in high wind and waves conditions. In Proceedings of the 10th International Conference Stability of Ship and Ocean Vehicles STAB’2009. St.Petersburg, Russia, 711–722.
  132. A. Degtyarev and Yu. Nechaev. 2008. Estimation of ship dynamics on waves: concept and applications. In Proceedings of the 6th OSAKA Colloquium on Seakeeping and Stability of Ships. Osaka, Japan, 145–152.
  133. С.В. Криволапов и Н.В. Кулабухова. 2008. Модели и схемы разбиения задач.
  134. Elena V. Zudilova-Seinstra, Ning Yang, Lilit Axner, Adianto Wibisono, and Dmitry Vasunin. 2008. Service-oriented visualization applied to medical data analysis. Service Oriented Computing and Applications 2, 4 (2008), 187–201. [doi]
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  138. A.B. Degtyarev and A.V. Boukhanovsky. 2007. Meteorological Components of Assumed Situation (2.3) Autoregression Model (8.2.5) Non-Canonical Presentation (8.2.6) Non-Canonical Presentation and Monte-Carlo Method (8.3.7) Parametric Resonance in Irregular Longitudinal Seas (8.4.4) Ergodicity of Nonlinear Irregular Roll (8.6.1) Group Structure of Irregular Roll (8.6.3). In Stability and Safety of Ships - Risk of Capsizing (2nd Edition). Jersey City: SNAME, 449 стр., 40–52, 304–305, 327–328, 333–335, 343–346, 350–352.
  139. Yu. Nechaev and A. Degtyarev. 2007. Concept of On-board Intelligent Systems Design. In Proceedings of 10th International Symposium on Practical Design of Ships & Other Floating Structures, PRADS 2007. Huston, USA.
  140. V. Korkhov et al. 2007. VLAM-G: Interactive Dataflow Driven Engine for Grid-enabled Resources. Scientific Programming 15, 3 (2007), 173–188.
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  146. A. Bogdanov, A. Degtyarev, Yu. Nechaev, and A. Valdenberg. 2006. Design of High-Performance Telemedicine System. Healthcare IT management 1, 1 (2006), 29–31, 44.
  147. А.Б. Дегтярев и Д.А. Васюнин. 2006. Архитектура и особенности функционирования бортовой интеллектуальной системы. ИНФОРМАЦИОННО-ИЗМЕРИТЕЛЬНЫЕ И УПРАВЛЯЮЩИЕ СИСТЕМЫ 4, 9 (2006 г.), 10–13.
  148. A. Bogdanov, A. Degtyarev, E. Stankova, and I. Shoshmina. 2006. Wave Weather Scenarios Modelling Using Grid Technology. In Proceedings of the 9th International Conference Stability of Ship and Ocean Vehicles STAB’2006. Rio de Janeiro, Brazil, 279–286.
  149. A. Bogdanov, A. Degtyarev, and Yu. Nechaev. 2005. Parallel Algorithms for Virtual Testbed. In Proceedings of 5th International Conference “Computer Science & Information Technologies.” Yerevan, Armenia, 393–398.
  150. A. Degtyarev. 2005. New Approach to Wave Weather Scenarios Modeling. In Proceedings of 8th International Ship Stability Workshop. Istanbul, Turkey, paper No 3.2.
  151. A.V. Bogdanov, A.B. Degtyarev, Yu. I. Nechaev, and A.V. Valdenberg. 2005. Cardiologic telemedicine system on the basis of high performance cluster “SKIF”: concept and application. In Proceedings of International Conference on Ad-vanced Information and Telemedicine Technolo-gies for Health, AITTH’2005. Minsk, Belarus.
  152. V. Korkhov, A. Bogdanov, and L.O. Hertzberger. 2004. On Issues of Resource Management in Grid Environment. In Тезисы докладов международной конференции “Распределенные вычисления и грид-технологии в науке и образовании.” Дубна.
  153. V. Korkhov, A.S.Z. Belloum, and L.O. and Hertzberger. 2004. VL-e: Approach to design a Grid-based Virtual Laboratory. In Proceedings of 5th Workshop on Distributed and Parallel Systems, September 19-22, 2004. Budapest, Hungary, 21–28.
  154. V. Korkhov, A.S.Z. Belloum, and L.O. and Hertzberger. 2004. Evaluating Meta-scheduling Algorithms in VLAM-G environment. In Proceedings of the Tenth Annual Conference of the Advanced School for Computing and Imaging (ASCI) conference. the Netherlands, 87–94.
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  157. Z.W. Hendrikse et al. 2003. Evaluating the VLAM-G toolkit on the DAS-2. Future Generation Computer Systems 19, 6 (2003), 815–824.
  158. A.S.Z. Belloum, D. Groep, L.O. Hertzberger, V. Korkhov, C. de Laat, and D. Vasunin. 2003. VLAM-G: a Grid-based Virtual Laboratory. Future Generation Computer Systems 19, 2 (2003), 209–217.
  159. A. Degtyarev. 2003. High Performance Computer Technologies in Shipbuilding. In Optimistic. Optimization in Marine Design. //Lothar Birk, Stefan Harries (Editors). Berlin: Mensch & Buch Verlag, 258 стр., 245–258.
  160. H. Afsarmanesh et al. 2002. VLAM-G: A Grid-based virtual laboratory. Scientific Programming 10, 2 (2002), 173–181.
  161. Y. Nechaev, A. Degtyarev, and I. Kiryukhin. 2002. Complex Situation Recognition on the Basis of Neural Networks in Shipboard Intelligence System. Lecture Notes in Computer Science 2331 (2002), 564–573.
  162. Yu. I. Nechaev, A.B. Degtyarev, and A.V. Boukhanovsky. 2002. Cognitive Computer Graphics for Information Interpretation in Real Time Intelligence Systems. Lecture Notes in Computer Science 2329 (2002), 683–692.
  163. A. Chevel and V. Korkhov. 2001. Deployment of Globus Tools at St.Petersburg (Russia). In International Conference on Computing in High Energy and Nuclear Physics (CHEP’01), September 3-7, 2001. Beijing, China.
  164. A. Boukhanovsky, A. Degtyarev, and V. Rozhkov. 2001. Peculiarities of Computer Simulation and Statistical Representation of Time-Spatial Metocean Fields. Lecture Notes in Computer Science 2073 (2001), 463–472.
  165. Y. Nechaev, A. Degtyarev, and A. Boukhanovsky. 2001. Complex Situations Simulation when Testing Intelligence System Knowledge Base. Lecture Notes in Computer Science 2073 (2001), 453–462.
  166. A. Bogdanov, A. Degtyarev, and Y. Nechaev. 2001. Fuzzy Logic Basis in High Performance Decision Support Systems. Lecture Notes in Computer Science 2074 (2001), 965–975.
  167. Y. Nechaev and A. Degtyarev. 2000. Account of peculiarities of ship’s non-linear dynamics in seaworthiness estimation in real-time intelligence systems. In Proceedings of the International conference STAB’2000. Launceston, Tasmania, Australia, 688–701.
  168. A. Degtyarev and A. Boukhanovsky. 2000. Peculiarities of motion of ship with low buoyancy on asymmetrical random waves. In Proceedings of the International conference STAB’2000. Launceston, Tasmania, Australia, 665–679.
  169. L.J. Lopatoukhin, V.A. Rozhkov, V.E. Ryabinin, V.R. Swail, A.V. Boukhanovsky, and A.B. Degtyarev. 2000. Estimation of Extreme Wind Wave Heights, World Meteorological Organization.
  170. V. Belenky, A. Degtyarev, and A. Boukhanovsky. 1998. On probabilistic qualities of severe ship motion. Ocean Engineering 25, 1 (1998), 1–25.