Orientation of the Head and Trunk During Functional Upper Limb Movement

Roby-Brami, Agnès; Colau, Marie-Martine Lefevre; Parry, Ross; Acapo, Sessi; Rannou, François; Rören, Alexandra

doi:10.3390/app10062115

Cited by 3 publications

(2 citation statements)

References 65 publications

(75 reference statements)

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“…To our knowledge, no one has used a dynamic simulation model containing the ball and the shooter's arm to analyze the kinematics of basketball shooting. In wheelchair basketball, the work in [10] used a two-dimensional three-state simulation model to investigate the optimal release conditions for free throws and the corresponding arm movement patterns.…”

Section: Introductionmentioning

confidence: 99%

[Retracted] CNN‐LSTM Hybrid Model for Kinematic Feature Analysis and Parabolic Radian Prediction in Basketball Videos

Jiang

Chen

Yang

2021

Computational Intelligence and Neuroscience

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With the improvement of living standards around the world, people's love for sports has also increased; basketball is especially loved by people. It is of great importance to provide sound motor instruction for basketball. To this end, this paper comprehensively investigates the dependence between the optimal release conditions and the corresponding shooting arm movements in basketball players. We carry out kinematic feature analysis of basketball sports videos, propose a hybrid CNN-LSTM model that can predict the arc of the shooting parry, and identify the key movements of the arm joint that produce optimal release velocity, angle, and backspin in short-, mid-, and long-range shots. The experiment demonstrates that the model has three rigid planar links with rotational joints that mimic the shoulder, elbow, and wrist joints of the upper arm, forearm, and hand, which are better at guiding the optimal ball release speed, angle, and backspin for different players with the fastest ball speed being about 4.6 m/s and the slowest being about 1.7 m/s.

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Section: Introductionmentioning

confidence: 99%

[Retracted] CNN‐LSTM Hybrid Model for Kinematic Feature Analysis and Parabolic Radian Prediction in Basketball Videos

Jiang

Chen

Yang

2021

Computational Intelligence and Neuroscience

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“…The size of lateral flexion or directional postural asymmetry may not be an obstacle for healthy participants looking at their movements through the mirror [ 13 ]. The change of body segments does not produce a consistent or distinct alteration of the movement sequence.…”

Section: Discussionmentioning

confidence: 99%

Postural Difference between the Interventions Reflecting the Concept of Mirror Therapy in Healthy Subjects

Kim

Song

2021

Brain Sciences

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(1) Background: Mirror therapy is one of the promising interventions for the upper limb rehabilitation of stroke patients. Postural asymmetry during mirror therapy was pointed out as a possibility to influence stroke patients’ rehabilitation negatively. However, it is still difficult to find studies on the postural changes in mirror therapy concept interventions. This study compared three methods of postural differences as follows: traditional mirror therapy (mirror); displaying the real-time movement of the unaffected side on the screen above the affected side (screen); and playing a pre-recorded movement of the unaffected side on a tablet placed on a movable box where the affected hand is put inside (movable). (2) Methods: to observe a kinematic difference, we recruited 16 healthy volunteers to go through three different interventions (mirror, screen, movable). The motion capture system made observations on the postures before and during interventions, then compared and analyzed. (3) Results: while using the mirror, the sitting posture was observed to become asymmetric, and the following unique posture was observed where the target hand went further from the trunk while performing tasks. In addition, the shoulder of the target side came forward, and the difference between both elbow flexion angles was also observed. On the other hand, the screen or movable device did not cause a significant change in the sitting posture, and no additional postural differences were observed either. (4) Conclusions: mirror therapy showed a tendency to cause lateral flexion opposite the target hand, thus, creating additional postural change. However, developed methods controlled spine tilt, and enabled the keeping of the midline while sitting during the intervention.

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A novel cost-effective postural tracking algorithm using marker-based video processing

Nazerian

Korhan

Shakeri

2021

International Journal of Occupational Safety and Ergonomics

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Orientation of the Head and Trunk During Functional Upper Limb Movement

Cited by 3 publications

References 65 publications

[Retracted] CNN‐LSTM Hybrid Model for Kinematic Feature Analysis and Parabolic Radian Prediction in Basketball Videos

[Retracted] CNN‐LSTM Hybrid Model for Kinematic Feature Analysis and Parabolic Radian Prediction in Basketball Videos

Postural Difference between the Interventions Reflecting the Concept of Mirror Therapy in Healthy Subjects

A novel cost-effective postural tracking algorithm using marker-based video processing

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