Add to ORKGLaser body scans, underwater video footage, animation software and computational fluid dynamics are used in combination to investigate the dolphin kick in competitive swimming. The "virtual swimmer" so created is immersed in a rectangular CFD domain of about 4.2 million mesh points in which the 3-D unsteady incompressible Navier- Stokes equations for viscous flow with constant properties are solved
We present an immersed boundary method for numerical simulation of a swimming fish. The vortici...
Computational Fluid Dynamics has been widely used in biomechanics studies applied to medicine and sp...
The detailed study of the turbulence and the fluid flow in sport is an open and exciting field of re...
Elite swimmers use a variety of underwater kicking patterns in current competition with little scien...
The undulatory underwater sequence is one of the most important phases in competitive swimming. An u...
The mechanisms behind propulsion and drag generation in swimming have proven difficult to accurately...
hree-dimensional fully unsteady computational fluid dynamic imulations of five Olympic-level swimmer...
Swimming assessment is one of the most complex but outstanding and fascinating topics in biomechanic...
In this presentation topics in swimming simulation from a computational fluid dynamics perspective a...
International audienceAbstract A computational model is developed to investigate the jump of a self ...
Our studies related with underwater dolphin kicking helped us to understand the complexity of this p...
The purpose of this study was to visualize the flow characteristic behind a swimmer during undulator...
A stroke-analysis system based on a CFD (Computational Fluid Dynamics) simulation has been developed...
This work is a case study observing the impact of various kinematics modifications in the simulated ...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Ocean Engineering, 1999.Includes bib...
We present an immersed boundary method for numerical simulation of a swimming fish. The vortici...
Computational Fluid Dynamics has been widely used in biomechanics studies applied to medicine and sp...
The detailed study of the turbulence and the fluid flow in sport is an open and exciting field of re...
Elite swimmers use a variety of underwater kicking patterns in current competition with little scien...
The undulatory underwater sequence is one of the most important phases in competitive swimming. An u...
The mechanisms behind propulsion and drag generation in swimming have proven difficult to accurately...
hree-dimensional fully unsteady computational fluid dynamic imulations of five Olympic-level swimmer...
Swimming assessment is one of the most complex but outstanding and fascinating topics in biomechanic...
In this presentation topics in swimming simulation from a computational fluid dynamics perspective a...
International audienceAbstract A computational model is developed to investigate the jump of a self ...
Our studies related with underwater dolphin kicking helped us to understand the complexity of this p...
The purpose of this study was to visualize the flow characteristic behind a swimmer during undulator...
A stroke-analysis system based on a CFD (Computational Fluid Dynamics) simulation has been developed...
This work is a case study observing the impact of various kinematics modifications in the simulated ...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Ocean Engineering, 1999.Includes bib...
We present an immersed boundary method for numerical simulation of a swimming fish. The vortici...
Computational Fluid Dynamics has been widely used in biomechanics studies applied to medicine and sp...
The detailed study of the turbulence and the fluid flow in sport is an open and exciting field of re...