Wearable IMU for Shoulder Injury Prevention in Overhead Sports

Rawashdeh, Samir A.; Rafeldt, Derek A.; Uhl, Timothy L.

doi:10.3390/s16111847

Cited by 67 publications

(71 citation statements)

References 37 publications

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“…Thus, the current method may also provide a useful information for monitoring and controlling adverse external loading patterns that occur during regular on-snow training. Moreover, as demonstrated earlier and in other settings (Chardonnens et al, 2012 , 2014 ; Rawashdeh et al, 2016 ; Yu et al, 2016 ; Whiteside et al, 2017 ), such an approach is also suitable for quantifying competition time, movement repetitions and/or the accelerations acting on the different segments of the human body. However, prior to getting feasible for applications in settings of daily training, future studies should primarily focus on a simplification of the sensor setup, as well as a fusion with global navigation satellite systems (i.e., the estimation of the absolute joint and CoM positions).…”

Section: Discussionmentioning

confidence: 69%

An Inertial Sensor-Based Method for Estimating the Athlete's Relative Joint Center Positions and Center of Mass Kinematics in Alpine Ski Racing

et al. 2017

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For the purpose of gaining a deeper understanding of the relationship between external training load and health in competitive alpine skiing, an accurate and precise estimation of the athlete's kinematics is an essential methodological prerequisite. This study proposes an inertial sensor-based method to estimate the athlete's relative joint center positions and center of mass (CoM) kinematics in alpine skiing. Eleven inertial sensors were fixed to the lower and upper limbs, trunk, and head. The relative positions of the ankle, knee, hip, shoulder, elbow, and wrist joint centers, as well as the athlete's CoM kinematics were validated against a marker-based optoelectronic motion capture system during indoor carpet skiing. For all joints centers analyzed, position accuracy (mean error) was below 110 mm and precision (error standard deviation) was below 30 mm. CoM position accuracy and precision were 25.7 and 6.7 mm, respectively. Both the accuracy and precision of the system to estimate the distance between the ankle of the outside leg and CoM (measure quantifying the skier's overall vertical motion) were found to be below 11 mm. Some poorer accuracy and precision values (below 77 mm) were observed for the athlete's fore-aft position (i.e., the projection of the outer ankle-CoM vector onto the line corresponding to the projection of ski's longitudinal axis on the snow surface). In addition, the system was found to be sensitive enough to distinguish between different types of turns (wide/narrow). Thus, the method proposed in this paper may also provide a useful, pervasive way to monitor and control adverse external loading patterns that occur during regular on-snow training. Moreover, as demonstrated earlier, such an approach might have a certain potential to quantify competition time, movement repetitions and/or the accelerations acting on the different segments of the human body. However, prior to getting feasible for applications in daily training, future studies should primarily focus on a simplification of the sensor setup, as well as a fusion with global navigation satellite systems (i.e., the estimation of the absolute joint and CoM positions).

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Section: Discussionmentioning

confidence: 69%

An Inertial Sensor-Based Method for Estimating the Athlete's Relative Joint Center Positions and Center of Mass Kinematics in Alpine Ski Racing

et al. 2017

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“…59 Bir diğer IMU çalışmasında da baş üstü atış kullanan sporcuların omuz eklemlerinin aşırı kullanımı hakkında ve sakatlığı önleyici bir geri bildirim sistemi olması test edilmiştir. 60 Yakın zamanda sensör teknolojilerinde gerçekleşebilecek gelişmeler hentbolda atış hızını maç ortamında ölçmeyi sağlayabileceği gibi, büyük veri birikimi analizleriyle, hentbolcuların pas ve şut gibi temel aksiyonlarının değerlendirilmesi ve başarı kriterlerinin incelemesi yapılabilir. atış Hızı ve Kuvvet antrenManı ilişKisi Kadın hentbolcularda gövde stabilite antrenmanlarının atış hızına etkisini araştıran bir çalışmada, 6 hafta, 2 gün/hafta progresif gövde kuvvet egzersizleri uygulamasının atış hızına etkisi incelenmiştir.…”

Section: Top Atış Hızıunclassified

Performance Factors of Handball: Physiological Demands and Velocity of Ball Throwing

Gençoğlu¹,

Gümüş²

2020

Turkiye Klinikleri J Sports Sci

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“…There is a strong focus on using wireless sensors to monitor athletes [ 12 , 13 , 14 , 15 , 16 ] with emphasis on performance assessment [ 9 , 12 , 17 , 18 , 19 , 20 ] and injury prevention [ 21 , 22 ]. To evaluate player performance, single IMU acceleration-derived measures have been adopted to analyze intensity throughout the course of sports practices.…”

Section: Introductionmentioning

confidence: 99%

Using Magneto-Inertial Measurement Units to Pervasively Measure Hip Joint Motion during Sports

Horenstein

Goudeau

Lewis

et al. 2020

Sensors

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The use of wireless sensors to measure motion in non-laboratory settings continues to grow in popularity. Thus far, most validated systems have been applied to measurements in controlled settings and/or for prescribed motions. The aim of this study was to characterize adolescent hip joint motion of elite-level athletes (soccer players) during practice and recreationally active peers (controls) in after-school activities using a magneto-inertial measurement unit (MIMU) system. Opal wireless sensors (APDM Inc., Portland OR, USA) were placed at the sacrum and laterally on each thigh (three sensors total). Hip joint motion was characterized by hip acceleration and hip orientation for one hour of activity on a sports field. Our methods and analysis techniques can be applied to other joints and activities. We also provide recommendations in order to guide future work using MIMUs to pervasively assess joint motions of clinical relevance.

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Wearable IMU for Shoulder Injury Prevention in Overhead Sports

Cited by 67 publications

References 37 publications

An Inertial Sensor-Based Method for Estimating the Athlete's Relative Joint Center Positions and Center of Mass Kinematics in Alpine Ski Racing

An Inertial Sensor-Based Method for Estimating the Athlete's Relative Joint Center Positions and Center of Mass Kinematics in Alpine Ski Racing

Performance Factors of Handball: Physiological Demands and Velocity of Ball Throwing

Using Magneto-Inertial Measurement Units to Pervasively Measure Hip Joint Motion during Sports

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