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Accelerometer profile of motion of the pelvic girdle in butterfly swimming

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The aim of the study was to develop a method to measure and analyse kinematics of movement of the pelvic girdle in butterfly swimming in order to support training of technical skills. Methods: A device for recording triaxial accelerations and triaxial rotational angular velocities was mounted on the dorsal part of the pelvic girdle of athlete. The measurements were performed in ten elite butterfly swimmers (age: 23.1 ± 3.7 years, body height: 187.6 ± 4.3 cm, body mass 83.4 ± 6.33 kg). The task of the athlete was to swim one length of short course pool at maximal intensity. Individual mean graphical and numerical profiles of the kinematics of the movement of the pelvic girdle was computed, within the average cycle based on five consecutive cycles. Results: Statistical analysis of numerical individual parameters of profiles of the athletes studied revealed statistically significant differences between the swimmers. Statistically significant correlations were also found between personal best times in 50 m swimming (r = –0.76, p < 0.05) and 100 m swimming (r = –0.76, p < 0.05) and duration of the part of the cycle connected with the decline in velocity from maximum translational motion velocity obtained during propulsion with the upper and lower limbs to minimum value of the velocity obtained before the beginning of propulsion only with the lower limbs. Conclusion: The proposed measurement method, presentation and analysis of the profile of the pelvic girdle motion in butterfly swimming represents a good tool for fast and effective qualitative and quantitative biomechanical evaluation of movement technique components.
Rocznik
Strony
159--167
Opis fizyczny
Bibliogr. 15 poz., rys., tab., wykr.
Twórcy
autor
autor
  • IOP Conference Series: Materials Science and Engineering
autor
  • Department of Biomechanics, Institute of Sport – National Research Institute, Warsaw, Poland
autor
  • Department of Biomechanics, Institute of Sport – National Research Institute, Warsaw, Poland
Bibliografia
  • [1] BARBOSA T.M., KESKINEN K.L., FERNANDES R., COLACO P., LIMA A.B., VILAS-BOAS J.P., Energy cost and intracyclic variation of the velocity of the centre of mass in butterfly stroke, Eur. J. Appl. Physiol., 2005, 93, 519–523.
  • [2] BARBOSA T.M., MOROUÇO P.G.F., JESUS S., FEITOSA W.G., COSTA M.J., MARINHO D.A., SILVA A.J., GARRIDO N.D., The Interaction Between Intra-Cyclic Variation of the Velocity and Mean Swimming Velocity in Young Competitive Swimmers, Int. J. Sports Med., 2012, 34(02), 123–130.
  • [3] CHOLLET D., SEIFERT L., BOULESTEIX L., Arm to Leg Coordination in Elite Butterfly Swimmers, Int. J. Sports Med., 2006, 27, 322–329.
  • [4] CRAIG A.B., TERMIN B., PENDERGAST D.R., Simultaneous Recordings of Velocity and Video During Swimming, Portuguese Journal of Sport Sciences, 2006, 6 (Suppl. 2), 32–35.
  • [5] DAVEY N., ANDERSON M., JAMES D., Validation trial of an accelerometer-based sensor platform for swimming. Sports Technology, 2008, 1(4–5), 202–207.
  • [6] DADASHI F., CRETTENAND F., MILLET G.P., AMINIAN K., Front-Crawl Instantaneous Velocity Estimation Using a Wearable Inertial Measurement Unit, Sensors, 2012, 12(10), 12927–12939.
  • [7] MOONEY R., CORLEY G., GODFREY A., QUINLAN L.R., ÓLAIGHIN G., Inertial Sensor Technology for Elite Swimming Performance Analysis: A Systematic Review, Sensors, 2016, 16(18), 1–55.
  • [8] OHGI Y., ICHIKAWA H., HOMMA M., MIYAJI C., Stroke phase discrimination in breaststroke swimming using a tri-axial acceleration sensor device, Sports Engineering, 2003, 6, 113–123.
  • [9] SEIFERT L., DELIGNIERES D., BOULESTEIX L., CHOLLET D., Effect of expertise on butterfly stroke coordination, J. Sports. Sci., 2007, 25(2), 131–141.
  • [10] SEIFERT L., BOULESTEIX L., CHOLLET D., VILAS-BOAS J.P., Differences in spatial-temporal parameters and arm–leg coordination in butterfly stroke as a function of race pace, skill and gender, Human Movement Science, 2008, 27, 96–111.
  • [11] SEIFERT L., CHOLLET D., SANDERS R., Does Breathing Disturb Coordination in Butterfly?, Int. J. Sports Med., 2010, 31, 167–173.
  • [12] STAMM A., JAMES D.A., THIEL D.V., Velocity profiling using inertial sensors for freestyle swimming, Sports Engineering, 2013, 16(1), 1–11.
  • [13] STANIAK Z., BUŚKO K., GÓRSK M., PASTUSZAK A., Accelerometer Profile of Motion of the Pelvic Girdle in Breaststroke Swimming, Bridging Motor Control and Biomechanics, J. Hum. Kine., 2016, 52, 147–156.
  • [14] STRZAŁA M., STANULA A., OSTROWSKI A., KACA M., KREŻAŁEK P., GŁODZIK J., Propulsive limb coordination and body acceleration in sprint breaststroke swimming, J. Sports Med. Phys. Fitness, 2017, 57, 1564–1571.
  • [15] STRZAŁA M., STANULA A., KREŻAŁEK P., OSTROWSKI A., KACA M., GŁĄB G., Butterfly Sprint Swimming Technique, Analysis of Somatic and Spatial-Temporal Coordination Variables, J. Hum. Kine., 2017, 60, 51–62.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018)..
The study was supported by Ministry of Sport and Tourism (Grant No. 2016.046/40/BP/DSW).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-449f5a15-f7ea-478b-8bc8-4219e431dcc8
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