Keywords: ذرات فعال; Nonlinear dynamics; Dissipative solitons; Active particles; Noise; Chain;
مقالات ISI ذرات فعال (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: ذرات فعال; Active particles; Granular dynamics; Quasi-2D; Granular self-assembly; Non-Maxwellian speed distributions;
Keywords: ذرات فعال; Human behaviors; Socio-economic systems; Kinetic models; Active particles;
Keywords: ذرات فعال; Active particles; Behavioral dynamics; Monte Carlo particle method; Fundamental diagram; Lanes formation; Evacuation time; 89.20.-a; 89.75.-k; 05.10.-a; 02.70.Uu;
Keywords: ذرات فعال; Kinetic theory; Active particles; Stochastic differential games; Social learning; Monte Carlo particle method
Keywords: ذرات فعال; Fluid mixtures; Chemotaxis; Active particles; Particles with rigid structure; Cell orientation;
Keywords: ذرات فعال; Kinetic theory; Stochastic differential games; Evolution; Mutations; Systems biology; Active particles
Keywords: ذرات فعال; Initial value problem; Asymptotic analysis; Kinetic theory; Mutations; Biological system; Active particles
Keywords: ذرات فعال; Human behaviors; Socio-economic systems; Kinetic models; Active particles;
Entropic transport of active particles driven by a transverse ac force
Keywords: ذرات فعال; Active particles; Transport direction; Transverse ac force
Numerical simulations for tumor and cellular immune system interactions in lung cancer treatment
Keywords: ذرات فعال; Carcinoma planoepitheliale; Kinetic theory; Active particles; Numerical simulations
Looking for a mathematics for living systems : Reply to comments on “Towards a mathematical theory of living systems focusing on developmental biology and evolution: A review and perspectives”
Keywords: ذرات فعال; Living systems; Evolution; Mutations; Nonlinear interactions; Stochastic games; Active particles; Genes and genome
On the modeling of collective learning dynamics
Keywords: ذرات فعال; Living systems; Learning; Kinetic theory; Active particles
On the mathematical theory of living systems, I: Complexity analysis and representation
Keywords: ذرات فعال; Living systems; Complexity; Functional subsystems; Active particles; Statistical representation
Modeling the hiding–learning dynamics in large living systems
Keywords: ذرات فعال; Living systems; Hiding; Learning; Functional subsystems; Kinetic theory; Active particles
On the modeling of nonlinear interactions in large complex systems
Keywords: ذرات فعال; Living systems; Nonlinearity; Functional subsystems; Kinetic theory; Active particles
Nonlinear modeling with mammographic evidence of carcinoma
Keywords: ذرات فعال; Breast tumor progression; Mammographic data; Kinetic theory; Active particles; Mathematical model; Nonlinear integro-differential equations; Numerical simulations
Complexity and mathematical tools toward the modelling of multicellular growing systems
Keywords: ذرات فعال; Living matters; Evolution; Mutations; System biology; Nonlinear Interactions; Stochastic games; Active particles
Modelling aggregation–fragmentation phenomena from kinetic to macroscopic scales
Keywords: ذرات فعال; Living systems; Functional subsystems; Kinetic theory; Active particles; Hydrodynamic limit
On the coupling of higher and lower scales using the mathematical kinetic theory of active particles
Keywords: ذرات فعال; Kinetic theory; Active particles; Complexity; Multiscale; Living systems
New paradigms towards the modelling of complex systems in behavioral economics
Keywords: ذرات فعال; Kinetic theory; Stochastic games; Active particles; Socio-economic systems; Evolution and dynamics
On the modelling and simulation of the competition for a secession under media influence by active particles methods and functional subsystems decomposition
Keywords: ذرات فعال; Social dynamics; Behavioral economy; Active particles; Nonlinearity; Functional subsystems; Media
Complexity analysis and mathematical tools towards the modelling of living systems
Keywords: ذرات فعال; 02.30.Jr; 02.50.Cw; 05.20.Dd; 05.60.+w; 02.60.NmKinetic theory; Stochastic games; Evolution; Mutations; Active particles
From the discrete kinetic theory to modelling open systems of active particles
Keywords: ذرات فعال; Kinetic theory; Active particles; Closed and open systems
On the kinetic and stochastic games theory for active particles: Some reasonings on open large living systems
Keywords: ذرات فعال; Active particles; Living systems; Kinetic theory; Multiscale approach; Nonlinearity
From the mathematical kinetic theory of active particles to multiscale modelling of complex biological systems
Keywords: ذرات فعال; Active particles; Living systems; Kinetic theory; Biology; Nonlinearity
On the kinetic theory for active particles: A model for tumor–immune system competition
Keywords: ذرات فعال; Active particles; Living systems; Kinetic theory; Biology; Cauchy problem; Nonlinearity
From the mathematical kinetic, and stochastic game theory to modelling mutations, onset, progression and immune competition of cancer cells
Keywords: ذرات فعال; 65L09; 65L12; 74B9902.30.Jr; 02.30.Sa; 02.50.Cw; 05.20.Dd; 05.60.+wKinetic theory; Stochastic games; Evolution; Mutations; System biology; Active particles; Genes and genome; Multicellular systems
On a kinetic theory approach to modelling degradation phenomena in conservation sciences
Keywords: ذرات فعال; Kinetic theory; Active particles; Works of art
Mathematical tools of the kinetic theory of active particles with some reasoning on the modelling progression and heterogeneity
Keywords: ذرات فعال; Active particles; Living systems; Kinetic theory; Biology; Nonlinearity
On the discrete kinetic theory for active particles. Mathematical tools
Keywords: ذرات فعال; Kinetic theory; Active particles; Discrete microscopic variable