Asian Journal of Pharmaceutical Research and Health Care

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The Application of Inertial Measurement Units and Wearable Sensors to Measure Selected Physiological Indicators in Archery


Affiliations
1 Innovative Manufacturing Mechatronics and Sports Lab (iMAMs), Universiti Malaysia Pahang, Pekan Campus 26600, Malaysia
2 Universiti Sultan Zainal Abidin, 21300, Terengganu, Malaysia
3 University Malaysia Pahang, Pekan Campus 26600, Malaysia
4 National Defense University of Malaysia, Kem Sungai Besi, 57000 Kuala Lumpur, Malaysia
 

The requirement for objective techniques to observe physical action in its distinctive measurements has prompted the improvement and broad utilisation of motion sensors called Inertial Measurement Units (IMUs), which measures bodily movements. However, although these sensors have been utilised to measure postural balance in both clinical and some specific sports, little or no effort have been made to apply these sensors to the measurement of other physiological indicators in the sport of archery. This study aims to ascertain the postural balance, hand movement, muscular activation as well as heart rate of an archer. An archer was instructed to perform two balance standings, two hand movements and his muscular activations of flexor and extensor digitorum, as well as heart rate, were recorded using Shimmer sensors. The mean movement of x and y-axis of the archer was used to correlate with the Pearson correlation for testing the validity of the sensors. Kolmogorov/Smirnov test was utilised to measure the reliability of the sensors over test re-test in two different tests. The coefficient of determination indicates some positive and negative significant relationships between some indicators. The Kolmogorov/Smirnov test re-test reveals a significant difference between all the indicators in both tests A and B, p < 0.001. The archer was able to present two types of postural standings and exhibited two hands movement while holding the bow. However, his heart rate demonstrated some variability during the executions of the movement in both tests. Thus, it could be concluded that the fusion sensors are reliable in measuring the a fore mentioned physiological indicators.

Keywords

Archery, Inertial Measurements Units, Movement Analysis, Physiological Indicators, Wearable Sensors.
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  • The Application of Inertial Measurement Units and Wearable Sensors to Measure Selected Physiological Indicators in Archery

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Authors

Zahari Taha
Innovative Manufacturing Mechatronics and Sports Lab (iMAMs), Universiti Malaysia Pahang, Pekan Campus 26600, Malaysia
Rabiu Muazu Musa
Universiti Sultan Zainal Abidin, 21300, Terengganu, Malaysia
Mohammad Razali Abdullah
Universiti Sultan Zainal Abidin, 21300, Terengganu, Malaysia
Mohd Azrai Mohd Razman
Innovative Manufacturing Mechatronics and Sports Lab (iMAMs), Universiti Malaysia Pahang, Pekan Campus 26600, Malaysia
Chei Ming Lee
Innovative Manufacturing Mechatronics and Sports Lab (iMAMs), Universiti Malaysia Pahang, Pekan Campus 26600, Malaysia
Faeiz Azizi Adnan
University Malaysia Pahang, Pekan Campus 26600, Malaysia
Muhammad Amirul Abdullah
Innovative Manufacturing Mechatronics and Sports Lab (iMAMs), Universiti Malaysia Pahang, Pekan Campus 26600, Malaysia
Mainul Haque
National Defense University of Malaysia, Kem Sungai Besi, 57000 Kuala Lumpur, Malaysia

Abstract


The requirement for objective techniques to observe physical action in its distinctive measurements has prompted the improvement and broad utilisation of motion sensors called Inertial Measurement Units (IMUs), which measures bodily movements. However, although these sensors have been utilised to measure postural balance in both clinical and some specific sports, little or no effort have been made to apply these sensors to the measurement of other physiological indicators in the sport of archery. This study aims to ascertain the postural balance, hand movement, muscular activation as well as heart rate of an archer. An archer was instructed to perform two balance standings, two hand movements and his muscular activations of flexor and extensor digitorum, as well as heart rate, were recorded using Shimmer sensors. The mean movement of x and y-axis of the archer was used to correlate with the Pearson correlation for testing the validity of the sensors. Kolmogorov/Smirnov test was utilised to measure the reliability of the sensors over test re-test in two different tests. The coefficient of determination indicates some positive and negative significant relationships between some indicators. The Kolmogorov/Smirnov test re-test reveals a significant difference between all the indicators in both tests A and B, p < 0.001. The archer was able to present two types of postural standings and exhibited two hands movement while holding the bow. However, his heart rate demonstrated some variability during the executions of the movement in both tests. Thus, it could be concluded that the fusion sensors are reliable in measuring the a fore mentioned physiological indicators.

Keywords


Archery, Inertial Measurements Units, Movement Analysis, Physiological Indicators, Wearable Sensors.

References





DOI: https://doi.org/10.18311/ajprhc%2F2017%2F11046