Beanland Emma, Main Luana C, Aisbett Brad, Gastin Paul, Netto Kevin
Centre for Exercise and Sports Science (C-ESS), School of Exercise and Nutrition Sciences, Deakin University, Australia.
Centre for Exercise and Sports Science (C-ESS), School of Exercise and Nutrition Sciences, Deakin University, Australia; School of Physiotherapy, Curtin University, Australia.
J Sci Med Sport. 2014 Mar;17(2):234-8. doi: 10.1016/j.jsams.2013.04.007. Epub 2013 May 22.
To evaluate the validity of an integrated accelerometer and Global Positioning System (GPS) device to quantify swimming kinematics variables in swimming.
Criterion validation study.
Twenty-one sub-elite swimmers completed three 100 m efforts (one butterfly, breaststroke and freestyle) in an outdoor 50 m Olympic pool. A GPS device with an integrated tri-axial accelerometer was used to obtain mid-pool velocity and stroke count of each effort. This data was compared to velocity and stroke count data obtained from concurrently recorded digital video of the performance.
A strong relationship was detected between the accelerometer stroke count and the video criterion measure for both breaststroke (r>0.98) and butterfly (r>0.99). Also, no significant differences were detected between the GPS velocity and video obtained velocity for both freestyle and breaststroke. There was a significant difference between the GPS velocity and criterion measure for butterfly. Acceptable standard error and 95% limits of agreement were obtained for freestyle (0.13 m s(-1), 0.36 m s(-1)) and breaststroke (0.12 m s(-1), 0.33 m s(-1)) compared to butterfly (0.18 m s(-1), 0.50 m s(-1)). Relative error measurements ranged between 10.2 and 13.4% across the three strokes.
The integrated accelerometer and GPS device offers a valid and accurate tool for stroke count quantification in breaststroke and butterfly as well as measuring mid-pool swimming velocity in freestyle and breaststroke. The application of GPS technology in the outdoor training environment suggests advantageous practical benefits for swimmers, coaches and sports scientists.
评估一种集成加速度计和全球定位系统(GPS)的设备在量化游泳运动学变量方面的有效性。
标准效度研究。
21名次精英游泳运动员在室外50米奥运泳池中完成了三次100米的泳姿测试(一次蝶泳、蛙泳和自由泳)。使用带有集成三轴加速度计的GPS设备获取每次测试在泳池中部的速度和划水次数。将这些数据与同时记录的该测试数字视频所获得的速度和划水次数数据进行比较。
对于蛙泳(r>0.98)和蝶泳(r>0.99),加速度计划水次数与视频标准测量值之间均检测到强相关性。此外,自由泳和蛙泳的GPS速度与视频获取的速度之间均未检测到显著差异。蝶泳的GPS速度与标准测量值之间存在显著差异。与蝶泳(0.18米/秒,0.50米/秒)相比,自由泳(0.13米/秒,0.36米/秒)和蛙泳(0.12米/秒,0.33米/秒)获得了可接受的标准误差和95%一致性界限。三次泳姿的相对误差测量范围在10.2%至13.4%之间。
集成加速度计和GPS设备为蛙泳和蝶泳的划水次数量化以及自由泳和蛙泳的泳池中部游泳速度测量提供了一种有效且准确的工具。GPS技术在室外训练环境中的应用对游泳运动员、教练和运动科学家具有实际优势。
