Add to ORKGThe purpose of this presentation is to show some ideas where swimming kinematics and hydrodynamics were combined to deal with the understanding of swimming propulsion/efficiency phenomena. The study is a complex combination of different methods to tackle the problem of understanding swimming propulsion: 3D kinematics, flow visualization, PIV and CFD. The hand’s CM propulsive path differed between supportive and displacement sculling, finding the same situation in the wake generated. The forward zigzag path and the impulsive wake observed during displacement sculling opened a novel understanding of swimming propulsion
The purpose of this study was to identify the effect of sculling propulsive arm actions in displacem...
This study used a computational fluid dynamics methodology to analyze the effect of body position on...
AbstractUnderstanding the power balance of a swimmer, who needs to overcome power losses to drag and...
The purpose of this paper was to identify how various swimming service providers from around the wor...
Various explanations regarding how swimmers generate propulsion have been proffered during the last ...
The detailed study of the turbulence and the fluid flow in sport is an open and exciting field of re...
The mechanisms of propulsion can be deduced from 3D video analysis of swimming. The basic hydrodynam...
Based on 3D video analyses of swimming movements new hypotheses on the mechanisms of propulsion coul...
Propulsion in water is primarily done by generating torque in the shoulder, hip, knee, and ankle. To...
Swimming assessment is one of the most complex but outstanding and fascinating topics in biomechanic...
The mechanisms behind propulsion and drag generation in swimming have proven difficult to accurately...
Sculling movement can be considered a very important technique in swimming since it is frequently us...
A literature review is presented about the hydrodynamic effects of different hand and arm movements ...
In this paper, a literature review is presented regarding the hydrodynamic effects of different hand...
Propulsion in water is based on the interaction of motion body and water, respectively (under the co...
The purpose of this study was to identify the effect of sculling propulsive arm actions in displacem...
This study used a computational fluid dynamics methodology to analyze the effect of body position on...
AbstractUnderstanding the power balance of a swimmer, who needs to overcome power losses to drag and...
The purpose of this paper was to identify how various swimming service providers from around the wor...
Various explanations regarding how swimmers generate propulsion have been proffered during the last ...
The detailed study of the turbulence and the fluid flow in sport is an open and exciting field of re...
The mechanisms of propulsion can be deduced from 3D video analysis of swimming. The basic hydrodynam...
Based on 3D video analyses of swimming movements new hypotheses on the mechanisms of propulsion coul...
Propulsion in water is primarily done by generating torque in the shoulder, hip, knee, and ankle. To...
Swimming assessment is one of the most complex but outstanding and fascinating topics in biomechanic...
The mechanisms behind propulsion and drag generation in swimming have proven difficult to accurately...
Sculling movement can be considered a very important technique in swimming since it is frequently us...
A literature review is presented about the hydrodynamic effects of different hand and arm movements ...
In this paper, a literature review is presented regarding the hydrodynamic effects of different hand...
Propulsion in water is based on the interaction of motion body and water, respectively (under the co...
The purpose of this study was to identify the effect of sculling propulsive arm actions in displacem...
This study used a computational fluid dynamics methodology to analyze the effect of body position on...
AbstractUnderstanding the power balance of a swimmer, who needs to overcome power losses to drag and...