Satori Tsuzuki scite author profile

This paper examines the traffic flows on a two-dimensional stochastic lattice model that comprises a junction of two traveling routes: the domestic route and the international route each of which has parking sites. In our model, the system distributes the arrived particles to either of the two routes and selects one of the parking sites in the route for each particle, which stops at the parking site once during its travel. Because each particle has antennas in the back and front directions to detect other approaching particles, the effect of the volume exclusion of each particle extends in the moving direction. The system displays interesting behavior; remarkably, the dependence of the throughput on the distribution ratio of particles to the domestic route reduces after reaching the maximum parking capacity of the domestic route. Our simulations and analysis with the queueing model describe this phenomenon and suggest the following fact: as the distribution ratio of particles to the international route decreases, the throughput of the international route reduces, and simultaneously, that of the domestic route saturates. The simultaneous effect of the decrease and saturation causes a reduction in the throughput of the entire system.

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Particle approximation of the two-fluid model for superfluid ⁴He using smoothed particle hydrodynamics

Tsuzuki

2021

J. Phys. Commun.

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This paper presents a finite particle approximation of the two-fluid model for liquid 4He using smoothed particle hydrodynamics (SPH). In recent years, several studies have combined the vortex filament model (VFM), which describes quantized vortices in superfluid components, with the Navier–Stokes equations, which describe the motion of normal fluids. These studies led us to assume that coupling both components of the two-fluid model instead of using the VFM to describe the superfluid component enables us to approximate the system. In this study, we formulated a new SPH model that simultaneously solves both equations of motion of the two-fluid model. We then performed a numerical simulation of the rotating liquid 4He using our SPH. The results showed that the two major phenomena, the emergence of multiple independent vortices parallel to the circular axis and that of the so-called rigid-body rotation, can be reproduced by solving the two-fluid model using SPH. This finding is interesting because it was previously assumed that only a single vortex emerges when addressing similar problems without considering quantum mechanics. Our further analysis found that the emergence of multiple independent vortices can be realized by reformulating the viscosity term of the two-fluid model to conserve the angular momentum of the particles around their axes. Consequently, our model succeeded in reproducing the phenomena observed in quantum cases, even though we solve the phenomenological governing equations of liquid 4He.

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Large-scale particle-based fluid simulations using dynamic load balance on GPU supercomputer

Tsuzuki

Aoki

2014

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Satori Tsuzuki

Novel discrete element modeling coupled with finite element method for investigating ballasted railway track dynamics

Effective Dynamic Load Balance using Space-Filling Curves for Large-Scale SPH Simulations on GPU-rich Supercomputers

Throughput reduction on an air-ground transport system by the simultaneous effect of multiple traveling routes equipped with parking sites

Particle approximation of the two-fluid model for superfluid ⁴He using smoothed particle hydrodynamics

Large-scale particle-based fluid simulations using dynamic load balance on GPU supercomputer

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Satori Tsuzuki

Novel discrete element modeling coupled with finite element method for investigating ballasted railway track dynamics

Effective Dynamic Load Balance using Space-Filling Curves for Large-Scale SPH Simulations on GPU-rich Supercomputers

Throughput reduction on an air-ground transport system by the simultaneous effect of multiple traveling routes equipped with parking sites

Particle approximation of the two-fluid model for superfluid 4He using smoothed particle hydrodynamics

Large-scale particle-based fluid simulations using dynamic load balance on GPU supercomputer

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Particle approximation of the two-fluid model for superfluid ⁴He using smoothed particle hydrodynamics