AbstractThe objective of this study was to develop a musculoskeletal simulation for a swimmer wearing competitive swimwear. For the simulation, the body geometry and joint motion were put into the swimming human simulation model SWUM in order to calculate the distributed fluid forces acting on the whole swimmer's body. The distributed fluid forces were put into the musculoskeletal model. In addition to the fluid forces, the forces induced by the tension of the swimwear were also considered. As an example, the simulation for the crawl stroke was conducted. The results showed the time-varying effect of the swimwear on the muscle activity during swimming
A four segment model of the crawl arm stroke is developed and validated. The construction of a theor...
Previous swim start measurements at Chalmers University of Technology involved electromyography (EMG...
Copyright © 2013 Milda Bilinauskaite et al. This is an open access article distributed under the Cre...
We present a multiphysics framework for the realistic animation of human swimming that features a co...
AbstractThe purpose of this study is to develop a new method for designing compression sportswear fr...
AbstractThe purpose of this study is development of a new design method for competitive swimwear by ...
Elite swimming is a highly competitive sport. At this professional level, the difference between a p...
AbstractCompression garments are widely used in various sports activities. Since the cloths in a com...
A three-dimensional (3D) numerical simulation was performed using a combined stroke swimmer (deforma...
The objective of this study was to clarify the mechanical body load during walking in water by simul...
Propuisive force generated by swimmers' hand/forearm is the key factor determining performances in h...
AbstractRecently, there have been many developments in compression sportswear and swimwear. The main...
The simulation model to assess the performance of diving fin was developed by extending the swimming...
In front crawl swimming, the hand and the corresponding forearm generate major propulsive forces. Su...
The dynamic forces acting on a swimmer’s body are notoriously difficult to measure experimentally, t...
A four segment model of the crawl arm stroke is developed and validated. The construction of a theor...
Previous swim start measurements at Chalmers University of Technology involved electromyography (EMG...
Copyright © 2013 Milda Bilinauskaite et al. This is an open access article distributed under the Cre...
We present a multiphysics framework for the realistic animation of human swimming that features a co...
AbstractThe purpose of this study is to develop a new method for designing compression sportswear fr...
AbstractThe purpose of this study is development of a new design method for competitive swimwear by ...
Elite swimming is a highly competitive sport. At this professional level, the difference between a p...
AbstractCompression garments are widely used in various sports activities. Since the cloths in a com...
A three-dimensional (3D) numerical simulation was performed using a combined stroke swimmer (deforma...
The objective of this study was to clarify the mechanical body load during walking in water by simul...
Propuisive force generated by swimmers' hand/forearm is the key factor determining performances in h...
AbstractRecently, there have been many developments in compression sportswear and swimwear. The main...
The simulation model to assess the performance of diving fin was developed by extending the swimming...
In front crawl swimming, the hand and the corresponding forearm generate major propulsive forces. Su...
The dynamic forces acting on a swimmer’s body are notoriously difficult to measure experimentally, t...
A four segment model of the crawl arm stroke is developed and validated. The construction of a theor...
Previous swim start measurements at Chalmers University of Technology involved electromyography (EMG...
Copyright © 2013 Milda Bilinauskaite et al. This is an open access article distributed under the Cre...