A “Hydrokinematic” Method of Measuring the Glide Efficiency of a Human Swimmer

Author:

Naemi Roozbeh1,Sanders Ross H.1

Affiliation:

1. Centre for Aquatics Research and Education, The University of Edinburgh, St Leonard’s Land, Holyrood Road, Edinburgh EH8 8AQ, UK

Abstract

The aim of this study was to develop and test a method of quantifying the glide efficiency, defined as the ability of the body to maintain its velocity over time and to minimize deceleration through a rectilinear glide. The glide efficiency should be determined in a way that accounts for both the inertial and resistive characteristics of the gliding body as well as the instantaneous velocity. A displacement function (parametric curve) was obtained from the equation of motion of the body during a horizontal rectilinear glide. The values of the parameters in the displacement curve that provide the best fit to the displacement-time data of a body during a rectilinear horizontal glide represent the glide factor and the initial velocity of the particular glide interval. The glide factor is a measure of glide efficiency and indicates the ability of the body to minimize deceleration at each corresponding velocity. The glide efficiency depends on the hydrodynamic characteristic of the body, which is influenced by the body’s shape as well as by the body’s size. To distinguish the effects of size and shape on the glide efficiency, a size-related glide constant and a shape-related glide coefficient were determined as separate entities. The glide factor is the product of these two parameters. The goodness of fit statistics indicated that the representative displacement function found for each glide interval closely represents the real displacement data of a body in a rectilinear horizontal glide. The accuracy of the method was indicated by a relative standard error of calculation of less than 2.5%. Also the method was able to distinguish between subjects in their glide efficiency. It was found that the glide factor increased with decreasing velocity. The glide coefficient also increased with decreasing Reynolds number. The method is sufficiently accurate to distinguish between individual swimmers in terms of their glide efficiency. The separation of glide factor to a size-related glide constant and a shape-related glide coefficient enabled the effect of size and shape to be quantified.

Publisher

ASME International

Subject

Physiology (medical),Biomedical Engineering

Reference23 articles.

1. A Quantitative Look at the Swimming Biomechanics;Hay;Swim. Tech.

2. Motivating Start and Turn Improvement;Thayer;Swim. Tech.

3. Turning Technique of Elite Swimmers;Chow;J. Sports Sci.

4. Resistive Forces in Swimming;Vorontsov

5. Breaststroke Economy Skill and Performance: Study of Breaststroke Mechanics Using a Computer Based Velocity Video;D’Acquisto;J. Swim. Res.

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