A Systematic Review of Performance Analysis in Rowing Using Inertial Sensors

Worsey, Matthew T. O.; Espinosa, Hugo G.; Shepherd, Jonathan B.; Thiel, David V.

doi:10.3390/electronics8111304

Cited by 23 publications

(11 citation statements)

References 42 publications

(140 reference statements)

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“…The kayakers under different competitive levels vary substantially in trunk rotation, leg motion, stroke width, stroke rate, overall motion of the kayak, blade and water-contact time and other factors [ 26 ]. From these important factors, the most influential is the stroke frequency, stroke phases and stroke variation.…”

Section: Methodsmentioning

confidence: 99%

Paddle Stroke Analysis for Kayakers Using Wearable Technologies

Liu

Qiu

Zhang

et al. 2021

Sensors

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Proper stroke posture and rhythm are crucial for kayakers to achieve perfect performance and avoid the occurrence of sport injuries. The traditional video-based analysis method has numerous limitations (e.g., site and occlusion). In this study, we propose a systematic approach for evaluating the training performance of kayakers based on the multiple sensors fusion technology. Kayakers’ motion information is collected by miniature inertial sensor nodes attached on the body. The extend Kalman filter (EKF) method is used for data fusion and updating human posture. After sensor calibration, the kayakers’ actions are reconstructed by rigid-body model. The quantitative kinematic analysis is carried out based on joint angles. Machine learning algorithms are used for differentiating the stroke cycle into different phases, including entry, pull, exit and recovery. The experiment shows that our method can provide comprehensive motion evaluation information under real on-water scenario, and the phase identification of kayaker’s motions is up to 98% validated by videography method. The proposed approach can provide quantitative information for coaches and athletes, which can be used to improve the training effects.

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Section: Methodsmentioning

confidence: 99%

Paddle Stroke Analysis for Kayakers Using Wearable Technologies

Liu

Qiu

Zhang

et al. 2021

Sensors

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“…Wearable technology often consists of global positioning system (GPS) units with inbuilt inertial measurement unit (IMU) sensors. IMU sensors generally consist of three axis accelerometers, gyroscopes, and magnetometers, and have sample rates that are greater than 100 Hz [20][21][22][23]. Many elite sports codes (e.g., soccer, rugby, field hockey etc.)…”

Section: Assessments Of Wearable Technologymentioning

confidence: 99%

Assessment of Head Impacts and Muscle Activity in Soccer Using a T3 Inertial Sensor and a Portable Electromyography (EMG) System: A Preliminary Study

et al. 2020

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Heading the ball is an important skill in soccer. Head impacts are of concern because of the potential adverse health effects. Many elite players now wear GPS (that include inertial monitoring units) on the upper spine for location tracking and workload measurement. By measuring the maximum acceleration of the head and the upper spine, we calculated the acceleration ratio as an attenuation index for participants (n = 8) of different skill levels during a front heading activity. This would allow for in-field estimates of head impacts to be made and concussive events detected. For novice participants, the ratio was as high as 8.3 (mean value 5.0 ± 1.8), whereas, for experienced players, the mean ratio was 3.2 ± 1.5. Elite players stiffen the neck muscles to increase the ball velocity and so the torso acts as a support structure. Electromyography (EMG) signals that were recorded from the neck and shoulder before and after a training intervention showed a major increase in mean average muscle activity (146%, p = 3.39 × 10−6). This was accompanied by a major decrease in acceleration ratio (34.41%, p = 0.008). The average head-ball impact velocity was 1.95 ± 0.53 m/s determined while using optical motion capture. For this low velocity, the impact force was 102 ± 19 N, 13% of the published concussive force. The voluntary action of neck muscles decreases isolated head movements during heading. Coaches and trainers may use this evidence in their development of junior players.

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“…Taking into account that new techniques with practical applicability in monitoring the performance of rowers are encouraged [ 4 ]. Although the tests were carried out in a controlled environment, the mathematical model presented by the present study can be applied under conditions similar to the specific ones imposed by the aquatic environment (i.e., winds, water resistance, sea current).…”

Section: Discussionmentioning

confidence: 99%

“…Importantly, rowing is a modality that directly interacts with the aquatic environment, and thus relying on how a rower’s capacities interact with the environment to produce effective propulsion [ 3 , 4 ]. In this sense, the force exerted by the rower against the water resistance is a constant reality of the sport, and the training prescription must be precise and take into account all the variables that impact upon rowing performance (i.e., physical, technical and environmental characteristics).…”

Section: Introductionmentioning

confidence: 99%

Equation for analyzing the peak power in aquatic environment: An alternative for olympic rowing athletes

et al. 2020

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Purpose To develop an equation to provide the peak power (PP) through a specific stimulus performed in an aquatic environment, as well as to correlate morphological, anthropometric and strength variables with rowing performance. Methods The sample consisted of 16 elite young rowing athletes of both sexes (15.7 ± 1.21 years). The strength of upper limbs and lower limbs was verified. To analyze the PP, a 100-m Sprint test was performed on an indoor rowing type ergometer, and after a 72-hour wash-out, the test was repeated in an aquatic environment on a vessel equipped with a global position system. Body composition was analyzed by examining bone densitometry with an X-ray source and maturation was verified by anthropometry. Results The tests for water sprint and indoor rowing showed significant reliability (ICC = 0.695; p = 0.0007). The PP aquatic showed reliability with that acquired in indoor rowing (ICC = 0.897; p<0.0001) and was related to maturation (p<0.05). The morphology, anthropometry and strength of the upper limbs were related to the sprint and peak strength in both tests (p<0.05). Conclusion The equation for the PP in aquatic environment presented by the present study is highly reliable with an indoor ergometer digital ergometer.

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A Systematic Review of Performance Analysis in Rowing Using Inertial Sensors

Cited by 23 publications

References 42 publications

Paddle Stroke Analysis for Kayakers Using Wearable Technologies

Paddle Stroke Analysis for Kayakers Using Wearable Technologies

Assessment of Head Impacts and Muscle Activity in Soccer Using a T3 Inertial Sensor and a Portable Electromyography (EMG) System: A Preliminary Study

Equation for analyzing the peak power in aquatic environment: An alternative for olympic rowing athletes

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