| L. do Nascimento et al. [134] |
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It mainly deals with the architectural aspects of the discussed systems.
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It does not consider sensors for monitoring athletic gestures.
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It deals with other sensor typologies (electrochemical sensors, biosignal detecting stages, etc.).
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It does not present any comparative analyses.
|
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It deals with the design, fabrication, and characterization of sensors for monitoring rehabilitation and sports performance.
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It considers both systems for monitoring rehabilitation and sports performance.
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It focuses only on wearable sensing systems.
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It presents comparative analyses of the discussed systems.
|
S. Patel et al.
[135] |
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It does not consider sensors for monitoring athletic gestures.
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It is not focused on wearable systems.
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It deals with other sensor typologies (electrochemical sensors, biosignal detecting stages, etc.).
-
-
It does not present any comparative analyses.
|
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It deals with the design, fabrication, and characterization of sensors for monitoring rehabilitation and sports performances.
-
-
It focuses only on wearable sensing systems.
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It considers only biomechanical sensors.
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It presents comparative analyses of the discussed systems.
|
R. T. Li et al.
[136] |
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It considers only sensing systems for monitoring sports performances.
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It mainly deals with motion-tracking systems based on inertial sensors.
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It does not present any comparative analyses.
|
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It deals with sensing systems for monitoring both rehabilitation and sports performance.
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It focuses on the main typologies of biomechanical sensors for monitoring rehabilitation and sports performances.
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-
It presents comparative analyses of the discussed systems.
|
D. R. Seshadri et al.
[10] |
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It is not focused on sensing systems for detecting body movements.
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It considers only sensing systems for monitoring sports performance.
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It does not present any comparative analyses.
|
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It considers only sensing systems for detecting body movements.
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It deals with sensing systems for monitoring both rehabilitation and sports performance.
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It presents comparative analyses of the discussed systems.
|
Y. Zhao and Y. You
[9] |
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It considers only sensing systems for monitoring sports performance.
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It reports a general discussion on sensor technology for motion detection, not dwelling on specific systems reported in the literature.
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It analyses IoT-based wearable systems for monitoring sports performance, not focusing on the sensory aspects.
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It mainly deals with motion-tracking systems based on inertial sensors.
|
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It deals with sensing systems for monitoring both rehabilitation and sports performance.
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It provides an in-depth discussion of several sensing systems for motion detection reported in the scientific literature.
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It deals with the design, fabrication, and characterization of sensors for monitoring rehabilitation and sports performance.
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It focuses on the main typologies of biomechanical sensors for monitoring rehabilitation and sports performance.
|
S. Bahadori et al.
[11] |
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It focuses on knee-motion detection systems.
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It mainly deals with motion-tracking systems based on inertial sensors.
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It does not present any comparative analyses.
|
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It considers sensing systems for monitoring different joints and body movements.
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It focuses on the main typologies of biomechanical sensors for monitoring rehabilitation and sports performance.
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It presents comparative analyses of the discussed systems.
|
