Brownian dynamics simulations of active particles in a 2D pillar lattice show wake accumulation, upstream polarization, and kinematic topological defects that mark a transition in swimming directions with increasing flow strength.
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UNVERDICTED 3representative citing papers
An effective reward function emerges that fully governs the evolution of policy distributions across the population, yielding closed equations for mean and variance under Gaussian assumptions.
Inertial active chains show multiple MSD crossovers and systematically evolving non-Gaussian velocity distributions captured by excess kurtosis.
citing papers explorer
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Pore-scale distribution and transport of active particles in a two-dimensional lattice
Brownian dynamics simulations of active particles in a 2D pillar lattice show wake accumulation, upstream polarization, and kinematic topological defects that mark a transition in swimming directions with increasing flow strength.
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Theory of collective learning in populations of adaptive agents
An effective reward function emerges that fully governs the evolution of policy distributions across the population, yielding closed equations for mean and variance under Gaussian assumptions.
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Crossover dynamics and non-Gaussian fluctuations in inertial active chains
Inertial active chains show multiple MSD crossovers and systematically evolving non-Gaussian velocity distributions captured by excess kurtosis.