"Dynamic simulation of multi-component viscoelastic fluids using the lattice Boltzmann method," Physica A, 362(1), pp. 1492-1502, 2008.Ħ) Junya Onishi, Yu Chen and Hirotada Ohashi. "A lattice Boltzmann model for contact line motions," Computers and Mathematics with Applications, 55(7), pp. 1541-1553, 2008.ĥ) Atsushi Kawasaki, Junya Onishi, Yu Chen and Hirotada Ohashi. "Lattice Boltzmann simulation of capillary interactions among colloidal particles," Computers and Mathematics with Applications, 55(7), pp. (in Japanese)ģ) Wei Wang, Yu Chen and Jiping Huang, "Heterogeneous preferences, decision-making capacity, and phase transitions in a complex adaptive system," PNAS (Proceedings of the National Academy of Sciences), 0811782106, 2009.Ĥ) Junya Onishi, Atsushi Kawasaki, Yu Chen and Hirotada Ohashi. 204-211, 2011.Ģ) Hidenori Komatsu, Yasuhiro Hashimoto, Yu Chen and Hirotada Ohashi, "Artificial embryogeny for network structures and its application for a robot generation task," Journal of Artificial Intelligence, 25, pp. "Simulation of Futures and Spot Markets by Using an Agent-Based Multi-Market Model," Journal of Advanced Computational Intelligence and Intelligent Informatics, 15(2), pp. Lattice Boltzmann simulation studies on complex fluidsġ) Tomoko Ohi, Yasuhiro Hashimoto, Yu Chen and Hirotada Ohashi. With this model, we studied the rise of a single bubble in non-Newtonian fluid. A lattice Boltzmann model for this flow phenomenon was constructed by applying the spring-beads model and discretizing the space of spring-bead orientations. Multiphase flows with visco-elasticity are very complicated. Ĥ) Lattice Boltzmann modeling and simulation of multi-phase visco-elastic flows. We want to thoroughly investigate the physics of lateral capillary forces. Interactions among particles residing in a liquid-gas interface or a liquid film were studied with lattice Boltzmann simulations based on a unified discrete model, which is constructed by applying the discrete kinetic theory. Lateral capillary phenomena are typical examples of complex physical systems. īehavioral experiments of MDRAG game and construction of agent-based model for financial marketsģ) Lattice Boltzmann modeling and simulation of lateral capillary phenomena. Very interesting results concerning the mechanism of the invisible hand as well as the necessary conditions for the invisible hand to work were obtained. We have constructed a market-directed resource allocation game (MDRAG) and carried out behavioral experiments and multi-agent simulations of it. Ģ) Experiments and multi-agent simulations of behavioral game to clarify market principle. Not only will complex phenomena occurring in the financial markets be reproduced, but the mechanism behind and the internal structures of the markets will be clarified. We are conducting research on the simulation of single or coupled financial markets with agent-based models. Taking the 21st century's engineering problems as typical examples of complex systems, we aim to discover the mechanism of systems and solution of engineering problems by using SCS based on discrete models.ġ) Modeling and simulation of financial markets.įinancial markets are typical complex adaptive systems. We are conducting research on the simulation of complex systems (SCS). Undergraduate School: Continuum Models, System Modeling-I (Fluid Mechanics and Heat Transfer), Mathematical Financeĭepartment of Physics (Fudan University, Shanghai): Econophysics Graduate School: Simulation of Complex Systems (to be held) 1989: B.Eng., Department of Thermal Engineering, Shanghai Jiao Tong Universityġ994-1999: Research Associate, Faculty of Engineering, The University of Tokyoġ999: Lecturer, Faculty of Engineering, The University of Tokyoġ999-2011: Associate Professor, Faculty of Engineering, The University of TokyoĢ011: Associate Professor, Graduate School of Frontier Sciences, The University of Tokyo
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