“Selecting the right tool for the job” a narrative overview of experimental methods used to measure or estimate active and passive drag in competitive swimming

Authors: Sacilotto, G., Sanders, R., Gonjo, T., Marinho, D., Mason, B., Naemi, R., Vilas-Boas, J.P. and Papic, C.

Journal: Sports Biomechanics

Volume: 22

Issue: 12

Pages: 1572-1589

eISSN: 1752-6116

ISSN: 1476-3141

DOI: 10.1080/14763141.2023.2197858

Abstract:

Free-swimming performance depends strongly on the ability to develop propulsive force and minimise resistive drag. Therefore, estimating resistive drag (passive or active) may be important to understand how free-swimming performance can be improved. The purpose of this narrative overview was to describe and discuss experimental methods of measuring or estimating active and passive drag relevant to competitive swimming. Studies were identified using a mixed-model approach comprising a search of SCOPUS and Web of Science data bases, follow-up of relevant studies cited in manuscripts from the primary search, and additional studies identified by the co-authors based on their specific areas of fluid dynamics expertise. The utility and limitations of active and passive drag methods were critically discussed with reference to primary research domains in this field, ‘swimmer morphology’ and ‘technique analysis’. This overview and the subsequent discussions provide implications for researchers when selecting an appropriate method to measure resistive forces (active or passive) relevant to improving performance in free-swimming.

Source: Scopus

"Selecting the right tool for the job" a narrative overview of experimental methods used to measure or estimate active and passive drag in competitive swimming.

Authors: Sacilotto, G., Sanders, R., Gonjo, T., Marinho, D., Mason, B., Naemi, R., Vilas-Boas, J.P. and Papic, C.

Journal: Sports Biomech

Volume: 22

Issue: 12

Pages: 1572-1589

eISSN: 1752-6116

DOI: 10.1080/14763141.2023.2197858

Abstract:

Free-swimming performance depends strongly on the ability to develop propulsive force and minimise resistive drag. Therefore, estimating resistive drag (passive or active) may be important to understand how free-swimming performance can be improved. The purpose of this narrative overview was to describe and discuss experimental methods of measuring or estimating active and passive drag relevant to competitive swimming. Studies were identified using a mixed-model approach comprising a search of SCOPUS and Web of Science data bases, follow-up of relevant studies cited in manuscripts from the primary search, and additional studies identified by the co-authors based on their specific areas of fluid dynamics expertise. The utility and limitations of active and passive drag methods were critically discussed with reference to primary research domains in this field, 'swimmer morphology' and 'technique analysis'. This overview and the subsequent discussions provide implications for researchers when selecting an appropriate method to measure resistive forces (active or passive) relevant to improving performance in free-swimming.

Source: PubMed

"Selecting the right tool for the job" a narrative overview of experimental methods used to measure or estimate active and passive drag in competitive swimming.

Authors: Sacilotto, G., Sanders, R., Gonjo, T., Marinho, D., Mason, B., Naemi, R., Vilas-Boas, J.P. and Papic, C.

Journal: Sports biomechanics

Volume: 22

Issue: 12

Pages: 1572-1589

eISSN: 1752-6116

ISSN: 1476-3141

DOI: 10.1080/14763141.2023.2197858

Abstract:

Free-swimming performance depends strongly on the ability to develop propulsive force and minimise resistive drag. Therefore, estimating resistive drag (passive or active) may be important to understand how free-swimming performance can be improved. The purpose of this narrative overview was to describe and discuss experimental methods of measuring or estimating active and passive drag relevant to competitive swimming. Studies were identified using a mixed-model approach comprising a search of SCOPUS and Web of Science data bases, follow-up of relevant studies cited in manuscripts from the primary search, and additional studies identified by the co-authors based on their specific areas of fluid dynamics expertise. The utility and limitations of active and passive drag methods were critically discussed with reference to primary research domains in this field, 'swimmer morphology' and 'technique analysis'. This overview and the subsequent discussions provide implications for researchers when selecting an appropriate method to measure resistive forces (active or passive) relevant to improving performance in free-swimming.

Source: Europe PubMed Central