The effect of start block configuration and swimmer kinematics on starting performance in elite swimmers using the Omega OSB11 block

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Available online at www.sciencedirect.com Procedia Engineering 13 (2011) 141 147 5 th Asia-Pacific Congress on Sports Technology (APCST) The effect of start block configuration and swimmer kinematics on starting performance in elite swimmers using the Omega OSB11 block S.E.Slawson *, P.P.Conway, J. Cossor, N.Chakravorti, T. Le-Sage, A.A.West Sports Technology Institute, Loughborough University, Loughborugh, LE11 3QF, UK Received 19 March 2011; revised 14 May 2011; accepted 16 May 2011 Abstract Work detailed within this paper has begun to explore the effect of altering start block set-up and swimmer stance on subsequent starting performance using the Omega OSB11 starting block. Thirty-two elite British Swimmers were tested in 12 difference configurations during which, force, timing and distance information were captured. ANOVA tests have been carried out on the overall data set, revealing significant differences in output/performance variables as a result of changing the width of the swimmers stance. In addition, a single case-study is presented demonstrating the effect stance and set-up can have for an individual athlete. Future work should look towards finding general trends that may help less experienced athletes to improve their starting performance. It is thought that more specific analysis of elite athletes may enable ideal set-ups to be advised to athletes to gain advantage in the start phase of a race. 2011 Published by Elsevier Ltd. Open access under CC BY-NC-ND license. Selection and peer-review under responsibility of RMIT University Keywords: Swimming; start performance; elite athletes; OSB11 1. Introduction A swimming race can be broken into four contributing phases, i.e. the start, free swim, turns and finishing phase. For shorter races the start, i.e. time to 15 m, can have a significant impact on total race time, for example the women s 50m freestyle event at the Beijing Olympics 2008 this contribution was 26% [1]. Similarly, Cossor et al. 2001 reported the start could account for a quarter of the total race time, derived from analysis of races in Sydney Olympics 2000 [2]. The start may also be broken into three * Corresponding author. Tel.: +44-1509 564812. E-mail address: s.e.slawson@lboro.ac.uk. 1877 7058 2011 Published by Elsevier Ltd. Open access under CC BY-NC-ND license. doi:10.1016/j.proeng.2011.05.064

142 S.E.Slawson et al. / Procedia Engineering 13 (2011) 141 147 contributing phases, i.e. block, flight and underwater. The block phase refers to the time between the start trigger and the swimmer leaving the block. The flight phase is from the end of the block phase to the entry of the head into the pool. The underwater phase can be broken into two subsets of gliding and swimming and accounts for the period between entry and the swimming reaching 15 m, a distance typically used to define the end of the start as it is the maximum distance a swimmer is allowed to travel before break-out [2]. There are two techniques used during the block start: (i) the grab, where both feet are positioned at the front of the block and (ii) the track, where one foot is placed on the front of the block and the other is displaced towards the rear of the block. Prior research has explored the differences and potential advantages of each start. In some cases a preference towards the track start has been suggested [3, 4], however, Vilas-Boas, et al. 2003 and Kruger et al. 2003 found that neither technique was conclusively advantageous [5, 6]. With the introduction of the Omega OSB11 start block [7] that features an adjustable, slanted footrest there has been a shift towards researching the differences between the traditional track start and the track start using the footrest [8, 9], with no reference to the grab start. Nomura et al. 2010 and Honda et al. 2010 [9, 10], supported Omega s claims that using the footrest proved advantageous during the start and both suggested time and effort would be necessary for athletes to achieve these improvements. The slanted footrest can be moved into one of five finite positions from the front of the block in 35 mm increments. It is expected that exploring differences in technique, due to changes in block set-up and swimmer stance, will enable the use of the footrest to be optimised for individual athletes. The aim of this research is to develop an understanding of athlete variability and subsequently suggest guidance for optimal use of the footrest for different swimmers. It is expected that general trends from elite athletes may be useful in guiding less experienced athletes towards the ideal start set up and stance, however, cases for each athlete must be assessed in order to determine specific interventions to improve individual performance. 2. Methods A total of 32 elite British swimmers, comprising 17 males, average height 182.28 cm, average weight 77.47 kg, and 14 females, average height 170.33 cm, average weight 65.63 kg were included in the tests. Each swimmer was asked to perform starts in twelve different setup conditions. Swimmers undertook a minimum of two dives in each position over the course of three training sessions. The total number of dives recorded was 722. Swimmers were instructed to perform each start maximally to 15 m using their preferred competition stroke. Table 1. Testing variables and levels used in the study. Variable Footrest position Width of stance Front leg Levels 3 2 2 Description Positions : 3, 4, 5 i.e. the three furthest from the front of the block Wide (shoulder width apart) Narrow (feet in line with one another) Right Left Total variations 12 Measurement of 3D force production was facilitated via a specifically designed start block, integrating force transducers in the main block and footrest components (Figure 1). A multi-camera system was also used to give visual feedback for both over and underwater phases of each start. The two components were

S.E.Slawson et al. / Procedia Engineering 13 (2011) 141 147 143 synchronised using a digital trigger generated from the starting signal of each trial. Video data was also used to obtain measures of performance, such as flight distance, via digitisation techniques. The time to 15 m was recorded for each trial, using a timing device that was synchronised with the capture of the force and vision data. Fig. 1. Instrumented start block for force measurement in the main block and footrest components: direction of arrow indicates positive force To explore the effect of footrest set up and swimmer stance on starting performance a number of key variables were identified. These were defined as either input, output or performance variables and were collectively investigated (see Table 1). Data sets were divided into male and female subgroups which were analysed independently to identify any gross trends apparent in the data. Due to the individuality of trained athletes, two case studies, one male and one female, were then analysed to investigate the effect of footrest set up and swimmer stance for individual athletes. The width of stance input variable was classified as either narrow or wide. The wide position was defined as feet being shoulder width apart, as a minimum width, the narrow being one foot placed behind the other, within +/-5 cm of the centreline of the block. Wedge position was defined as 3, 4 or 5, pertaining to the position from the front in which the footrest was placed, 3 being the nearest to the front edge, 5 the farthest. Front leg specified whether the left or right leg was on the front edge of the block. Trials were randomised between each session to ensure that issues such as fatigue and learning effects were minimised. Table 2: Measurement variables used in analysis of starting performance Input variables Output variables Performance variables Width of stance Wedge Position Front leg Block time Peak Fz Main block Peak Fy Main block Peak Fz Footrest Peak Fy Footrest Horizontal take-off velocity Head distance

144 S.E.Slawson et al. / Procedia Engineering 13 (2011) 141 147 3. Results 3.1. Overall data results ANOVA tests were run to explore the effects of width of stance on output and performance variables for both male (Table 3) and female (Table 4) athletes. Forces have been expressed in body weights (BW s) and head distance has been considered as both a raw value and normalised to the individual s height, i.e. measurements in terms of body lengths (BL s). For male athletes significant relationships were found between width of stance and block time, peak forces on the footrest and horizontal take-off velocity. Block time was on average 0.022 s shorter using a narrow stance (p < 0.001). This difference, although small, could have the potential to alter the outcome of a race, assuming this difference was maintained throughout. For example, in the Delhi 2010 Commonwealth Games, the difference between first and second place in the 50 m Fly was just 0.02 s. Horizontal and vertical peak forces at the footrest were 0.077 (5.97 kg of force) and 0.072 (5.58 kg of force) higher respectively, using a narrow stance. Horizontal take-off velocity was 0.14 m/s higher using a narrow stance. Assuming a typical flight time 0.34 s [6, 10, 11] this could translate into ~5 cm further into the pool. Table 3: Significant ANOVA results for width of stance vs. output/performance variable for male athletes P value Narrow mean Wide mean Block time (BT) 0.000 0.762s 0.784s Peak Fz Footrest (FzFR) 0.000 0.901 BW 0.824 BW Peak Fy Footrest (FyFR) 0.000 0.942 BW 0.870 BW Horizontal take-off velocity (HVel) 0.001 4.67m/s 4.53m/s Table 4: Significant ANOVA results for width of stance vs. output/performance variable for female athletes P value Narrow mean Wide mean Peak Fy Main block (FyM) 0.044 0.642 BW 0.656 BW Head distance (raw) (HD) 0.000 2.16m 2.08m Head distance (raw/height) (HFactor) 0.062 1.25 BL 1.23 BL ANOVA s of the female athlete also revealed significant relationships, namely between peak horizontal force on the main block and head distance of entry, both with raw distances and normalised by the swimmers height. These relationships showed no consistency with those of the male athletes. Horizontal force was averagely 0.014 BW s higher using a narrow stance i.e. 0.92 kg. More interestingly, head distance of entry was further when using a narrow stance, i.e. 8 cm, 0.02 BL. In general these data suggest a preference towards using a narrow stance on the block for optimal starting performance in the general sample population. It is noted that, gender, stroke and individual variations can only be investigated in detail via continued trials. 3.2. Case study of individual athlete Individual swimmer case studies have been analysed to explore differences due to swimmer stance and block set-up on starting performance. Case study 1 is an elite, female swimmer. The effect of changes in

S.E.Slawson et al. / Procedia Engineering 13 (2011) 141 147 145 input variables has been assessed for this individual (see Table 5). In this case a number of significant relationships were found for both output variables and performance variables. The most notable influence on set-up was the front leg, which resulted in significant relationships for all output and performance variables tested. An example of these differences can be seen in Figure 2, where head distance of entry is 9 cm =/- 0.04 cm further on average for dives where the swimmer had dived with their right leg forward as opposed to their left. Table 5. ANOVA results for all input variables vs. output/performance variable for an individual, female athlete. Wedge position Wide/Narrow Front leg Head distance 0.105 0.573 0.014 Block time 0.273 0.471 0.001 Peak Fz 0.907 0.823 0.000 Peak Fy 0.169 0.493 0.000 Peak Fz W 0.023 0.000 0.049 Peak Fy W 0.002 0.022 0.000 Horizontal take off velocity 0.031 0.081 0.000 Fig. 2. Female case study, effect of front leg on distance of entry, average L = 2.05m, R = 2.16m. Footrest position was also found to have significant relationships with output and performance variables. Horizontal take-off velocity was on average ~0.1 m/s higher in positions 4 and 5, compared to 3, suggesting the swimmer performs better in either position 4 or 5. Similar relationships were found between footrest position and peak forces generated off the footrest. Vertically, positions 4 and 5 were ~0.05 BW s higher than in position 3. Horizontally this difference was 0.094 BW s between positions 3 and 4 and 0.116 BW s between positions 5 and 3. This suggests the swimmer is able to produce higher peak forces in positions 4 and 5 compared with 3 and that horizontally this is more pronounced for position 5. Peak forces off the footrest were also found to be significantly different for width of stance. For horizontal and vertical forces the narrow stance had higher average force values of 0.087 BW and 0.055

146 S.E.Slawson et al. / Procedia Engineering 13 (2011) 141 147 BW respectively, for this athlete this equates 5.24 kg and 3.31 kg. In summary, these data suggest the swimmer is best diving with their right leg forward, in position 4 or 5 using a narrow stance. It is important to note that the number of trials are limited (n = 24) therefore observations must be interpreted and combined with technical analysis of video data with regards to technique to reinforce these assumptions. However for an elite swimmer it would be unrealistic to expect a significantly higher number of trials over three training sessions to fit within their focused development schedules. Given a high base level of competence expected from an elite swimmer, it was considered that differences observed, as a result of changes of input variable, would be real as the level of repetition and consistency is typically very high in this level of athlete. 4. Discussion and Conclusion The effects of start block set-up, for the OSB11 block, and swimmer stance on overall starting performance has been discussed in elite athletes in this paper. Over 30 swimmers were tested in 12 different set-up variations. A number of output and performance variables were measured for each dive to give an indication of overall performance. General trends have been observed for all swimmers with regards to the effect of varying the width of stance on starting performance. Male and female data were analysed separately and the effect of width of stance on performance was determined. It was found that although both groups demonstrated significant relationships between width of stance and output or performance variables, the relationships were not consistent between each group. Initial conclusions indicate that a narrow stance consistently produces better output and performance variables compared to the wide stance. However, given the lack of consistency between male and female groups it is suggested that further analysis and trials be undertaken to identify the root causes of these differences. A case study focused on the performance of an individual athlete has been presented where the effect of each of the input variables have been assessed against overall performance to provide insight into the best set-up for this athlete. An additional objective of this research is to determine performance characteristics that could be used to guide less competent athletes to an improved starting performance. Furthermore, quantitative feedback, combined with qualitative professional analysis of technique has proven to be a valuable tool in providing detailed insight into the ideal set-up conditions for individual athletes. References [1] Slawson, S., (2010) A Novel Monitoring System for the Training of Elite Swimmers. PhD Thesis, Wolfson School of Mechanical and Manufacturing Engineering, Loughborough University, UK [2] Cossor, J., Mason, B., (2001) Swim Start Performance at the Sydney 2000 Olympic Games, XIX International Symposium on Biomechanics in Sports, San Francisco, pp 70-74 [3] Issurin, V.B., Verbitsky, O., (2002) Track Start vs. Grab Start: Evidence of the Sydney Olympic Games, Biomechanics and Medicine in Swimming IX, pp 213-218 [4] Welcher, R.L., Hinrichs, R.N., George, T.R., (2008) Front of Rear-Weighted Track Start or Grab Start: Which is the Best for Female Swimmers?, Sports Biomechanics, 7:1, pp 100-113 [5] Vilas-Boas, J.P., João Cruz, M., Sousa, F., Conceição, F., Fernandes, R., Carvalho, J., (2003) Biomechanical Analysis of Ventral Swimming Starts: Comparison of the Grab Start with Two Track-Start Techniques, Biomechanics and Medicine in Swimming IX, pp 249-254 [6] Kruger, T. Wick, D., Hohmann, A., El-Bahrawi, M., Koth, A., (2003) Biomechanics of the Grab and Track Start Technique, Biomechanics and Medicine in Swimming IX, pp 219-224

S.E.Slawson et al. / Procedia Engineering 13 (2011) 141 147 147 [7] Omega OSB11 Swimming Starting Block, http://www.sportaserviss.lv/files/varia/osb11_starting_block_3454.525.02- SB.pdf [8] Nomura, T., Takeda, T., Takagi, H., (2010) Influences on the Back Plate on Competitive Swimming Starting Motion in Particular Projection Skill, XIth International Symposium for Biomechanics and Medicine in Swimming, pp 135-137 [9] Honda, K.E., Sinclair, P.J., Mason, B.R., Pease, D.L., (2010) A Biomechanical Comparison of Elite Swimmers Start Performance using the Traditional Track Start and the New Kick Start, XIth International Symposium for Biomechanics and Medicine in Swimming, pp 94-96 [10] Seifert, L., Vantorre, J., Chollet, D., (2007) Biomechanical Analysis of the Breaststroke Start. International Journal of Sports Medicine, 28, pp 970-976 [11] Ruschel, C., Araujo, L., Pereira, S., Roesler, H., (2007) Kinematical Analysis of the Swimming start: Block, Flight and Underwater Phases. Proceedings of XXV International Society of Biomechanics in Sport, Brazil, pp 385-388