Jun 22, 2017 · We propose a two-dimensional numerical model to investigate the dynamic behaviour of an organism swimming in a background flow in a channel.

It is observed that, under a uniform background flow, a non-motile organism is simply dragged by the flow whereas a motile organism swims backward along the ...

(DOI: 10.1145/3121138.3121169) We propose a two-dimensional numerical model to investigate the dynamic behaviour of an organism swimming in a background ...

ABSTRACT. We propose a two-dimensional numerical model to investigate the dynamic behaviour of an organism swimming in a background flow in a channel.

Numerical Study on the Dynamics of Organism Motion under Background Flow ... dynamic behaviour of an organism swimming in a background flow in a channel.

Mar 26, 2021 · Through numerical simulations it is found that the initial location of the sperm like organism in the channel greatly decides the final swimming ...

The complex fluid-structure interaction is solved by developing a two-dimensional numerical model with an immersed boundary framework. The simulation consists ...

A detailed numerical study of a microscopic artificial swimmer that consists of an elastic filament composed of superparamagnetic particles that are linked ...

(2017) Numerical Study on the Dynamics of Organism Motion under Background Flow ICBBS '17: 6th International Conference on Bioinformatics and Biomedical Science ...

Motion of the organism relative to the water through sinking or swimming distorts this boundary layer. This alters the gradients and causes a fairly well ...