left_right_single_leg_cmj_metrics

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left_right_single_leg_cmj_metrics [2024/03/07 15:03] ethanleft_right_single_leg_cmj_metrics [2024/03/07 15:11] (current) ethan
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  Units: Degrees (°)  Units: Degrees (°)
  
-**L/R SL CMJ- Unloading Metrics**+**L/R SL CMJ - Unloading Metrics**
  
 Unloading Time:  Unloading Time: 
Line 404: Line 404:
  Units: Degrees (°)  Units: Degrees (°)
  
-**L/R SL CMJ- Yielding Metrics**+**L/R SL CMJ - Yielding Metrics**
  
 Yielding Time:  Yielding Time: 
Line 410: Line 410:
  Calculation: Yielding End (s) – Unloading End (s)   Calculation: Yielding End (s) – Unloading End (s) 
  Units: Seconds (s)  Units: Seconds (s)
 +
 Yielding Avg Vel:  Yielding Avg Vel: 
  Definition: Average center of mass vertical velocity across the yielding phase.  Definition: Average center of mass vertical velocity across the yielding phase.
  Calculation: mean (com_velocity)[yielding_end:unloading_end]  Calculation: mean (com_velocity)[yielding_end:unloading_end]
  Units: Meters per second (m/s)  Units: Meters per second (m/s)
 +
 Yielding Peak Vel:  Yielding Peak Vel: 
-Definition: Peak negative center of mass vertical velocity within the yielding phase.+  Definition: Peak negative center of mass vertical velocity within the yielding phase.
  Calculation: min (com_velocity) [yielding_end:unloading_end]  Calculation: min (com_velocity) [yielding_end:unloading_end]
  Units: Meters per second (m/s)  Units: Meters per second (m/s)
 +
 Yielding Avg Force: Yielding Avg Force:
  Definition: Average vertical force production during the yielding phase.   Definition: Average vertical force production during the yielding phase. 
  Calculation: mean(Force(N))[yielding_end:unloading_end]  Calculation: mean(Force(N))[yielding_end:unloading_end]
  Units: Newtons (N)  Units: Newtons (N)
 +
 Yielding Avg Force Rel: Yielding Avg Force Rel:
-Definition: Average vertical force production during the yielding phase normalized to participant’s body mass.+  Definition: Average vertical force production during the yielding phase normalized to participant’s body mass.
  Calculation: mean(Force(N))[yielding_end:unloading_end] / mass (kg)  Calculation: mean(Force(N))[yielding_end:unloading_end] / mass (kg)
  Units: Newtons per kilogram (N/kg)  Units: Newtons per kilogram (N/kg)
 +
 Yielding Peak Force:  Yielding Peak Force: 
-Definition: Peak vertical force production during the yielding phase normalized to participant’s body mass.+  Definition: Peak vertical force production during the yielding phase normalized to participant’s body mass.
  Calculation: max(Force(N))[yielding_end:unloading_end]   Calculation: max(Force(N))[yielding_end:unloading_end] 
  Units: Newtons (N)  Units: Newtons (N)
 +
 Yielding Peak Force Rel: Yielding Peak Force Rel:
-Definition: Peak vertical force production during the yielding phase normalized to participant’s body mass.+  Definition: Peak vertical force production during the yielding phase normalized to participant’s body mass.
  Calculation: max(Force(N))[yielding_end:unloading_end] / mass (kg)  Calculation: max(Force(N))[yielding_end:unloading_end] / mass (kg)
  Units: Newtons per kilogram (N/kg)  Units: Newtons per kilogram (N/kg)
 +
 Yielding Avg RFD:  Yielding Avg RFD: 
  Definition: Average rate of force development during the yielding phase.  Definition: Average rate of force development during the yielding phase.
-Calculation: mean(Force(N)[yielding_end:unloading_end] / Yielding Time (s)+  Calculation: mean(Force(N)[yielding_end:unloading_end] / Yielding Time (s)
  Units: Newtons per second (N/s)  Units: Newtons per second (N/s)
  
 Yielding Avg RFD Rel: Yielding Avg RFD Rel:
-Definition: Average rate of force development during the yielding phase normalized to participant’s body mass. +  Definition: Average rate of force development during the yielding phase normalized to participant’s body mass. 
-Calculation: mean(Force(N)[yielding_end:unloading_end] / Yielding Time (s))/ mass (kg) +  Calculation: mean(Force(N)[yielding_end:unloading_end] / Yielding Time (s))/ mass (kg) 
  Units: Newtons per second per kilogram (N/s/kg)  Units: Newtons per second per kilogram (N/s/kg)
 +
 Yielding Peak RFD: Yielding Peak RFD:
  Definition: Peak rate of force development during the yielding phase.  Definition: Peak rate of force development during the yielding phase.
-Calculation: max(Force(N)[yielding_end:unloading_end] / Yielding Time (s)+  Calculation: max(Force(N)[yielding_end:unloading_end] / Yielding Time (s)
  Units: Newtons per second (N/s)  Units: Newtons per second (N/s)
 +
 Yielding Peak RFD Rel: Yielding Peak RFD Rel:
-Definition: Peak rate of force development during the yielding phase normalized to body mass. +  Definition: Peak rate of force development during the yielding phase normalized to body mass. 
-Calculation: max(Force(N)[yielding_end:unloading_end] / Yielding Time (s) / mass(kg).+  Calculation: max(Force(N)[yielding_end:unloading_end] / Yielding Time (s) / mass(kg).
  Units: Newtons per second per kilogram (N/s/kg)  Units: Newtons per second per kilogram (N/s/kg)
 +
 Yielding Peak Power:  Yielding Peak Power: 
-Definition: Peak power production during the yielding phase. +  Definition: Peak power production during the yielding phase. 
-Calculation: max(Force(N)[yielding_end:unloading_end] * com_velocity(m/s)[[yielding_end:unloading_end]+  Calculation: max(Force(N)[yielding_end:unloading_end] * com_velocity(m/s)[[yielding_end:unloading_end]
  Units: Watts (W)  Units: Watts (W)
 +
 Yielding Peak Power Rel: Yielding Peak Power Rel:
-Definition: Peak power production during the yielding phase normalized to the participant’s  body mass. +  Definition: Peak power production during the yielding phase normalized to the participant’s  body mass. 
-Calculation: max(Force(N)[yielding_end:unloading_end] * com_velocity(m/s)[[yielding_end:unloading_end]) / mass(kg)+  Calculation: max(Force(N)[yielding_end:unloading_end] * com_velocity(m/s)[[yielding_end:unloading_end]) / mass(kg)
  Units: Watts per kilogram (W/kg)  Units: Watts per kilogram (W/kg)
 +
 Yielding Avg Power: Yielding Avg Power:
  Definition: Average power production during the yielding phase.  Definition: Average power production during the yielding phase.
-Calculation: mean(Force(N)[yielding_end:unloading_end] * com_velocity(m/s)[[yielding_end:unloading_end])+  Calculation: mean(Force(N)[yielding_end:unloading_end] * com_velocity(m/s)[[yielding_end:unloading_end])
  Units: Watts (W)  Units: Watts (W)
 +
 Yielding Avg Power Rel: Yielding Avg Power Rel:
-Definition: Average power production during the yielding phase normalized to the participant’s body mass. +  Definition: Average power production during the yielding phase normalized to the participant’s body mass. 
-Calculation: mean(Force(N)[yielding_end:unloading_end] * com_velocity(m/s)[[yielding_end:unloading_end]) / mass(kg)+  Calculation: mean(Force(N)[yielding_end:unloading_end] * com_velocity(m/s)[[yielding_end:unloading_end]) / mass(kg)
  Units: Watts per kilogram (W/kg)  Units: Watts per kilogram (W/kg)
  
 Yielding Peak Work:  Yielding Peak Work: 
-Definition: Peak work production during the yielding phase. +  Definition: Peak work production during the yielding phase. 
-Calculation: max(Force(N)[yielding_end:unloading_end] * com_position(m)[[yielding_end:unloading_end])+  Calculation: max(Force(N)[yielding_end:unloading_end] * com_position(m)[[yielding_end:unloading_end])
  Units: Joules(J)  Units: Joules(J)
 +
 Yielding Peak Work Rel: Yielding Peak Work Rel:
-Definition: Peak power production during the yielding phase normalized to the participant’s body mass. +  Definition: Peak power production during the yielding phase normalized to the participant’s body mass. 
-Calculation: max(Force(N)[yielding_end:unloading_end] * com_position(m)[[yielding_end:unloading_end]) /  mass(kg)+  Calculation: max(Force(N)[yielding_end:unloading_end] * com_position(m)[[yielding_end:unloading_end]) /  mass(kg)
  Units: Joules per kilogram (J/kg)  Units: Joules per kilogram (J/kg)
 +
 Yielding Avg Work: Yielding Avg Work:
  Definition: Average power production during the yielding phase.  Definition: Average power production during the yielding phase.
-Calculation: mean(Force(N)[yielding_end:unloading_end] * com_position(m)[[yielding_end:unloading_end])+  Calculation: mean(Force(N)[yielding_end:unloading_end] * com_position(m)[[yielding_end:unloading_end])
  Units: Joules (J)  Units: Joules (J)
 +
 Yielding Avg Work Rel: Yielding Avg Work Rel:
  Definition: Average power production during the yielding phase.  Definition: Average power production during the yielding phase.
-Calculation: mean(Force(N)[yielding_end:unloading_end] * com_position(m)[[yielding_end:unloading_end]) / mass(kg)+  Calculation: mean(Force(N)[yielding_end:unloading_end] * com_position(m)[[yielding_end:unloading_end]) / mass(kg)
  Units: Joules per kilogram(J/ kg)  Units: Joules per kilogram(J/ kg)
 +
 Yielding Torso Angle: Yielding Torso Angle:
  Definition: Segment angle of the torso at the end of the yielding phase.   Definition: Segment angle of the torso at the end of the yielding phase. 
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Yielding Hip Flexion Angle L: Yielding Hip Flexion Angle L:
-Definition: Left hip joint flexion/ extension angle at the end of the yielding phase. +  Definition: Left hip joint flexion/ extension angle at the end of the yielding phase. 
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Yielding Hip Flexion Angle R: Yielding Hip Flexion Angle R:
-Definition: Right hip flexion/ extension joint angle at the end of the yielding phase.+  Definition: Right hip flexion/ extension joint angle at the end of the yielding phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Yielding Hip Add Angle L: Yielding Hip Add Angle L:
-Definition: Left hip joint adduction/abduction angle at the end of the yielding phase.+  Definition: Left hip joint adduction/abduction angle at the end of the yielding phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Yielding Hip Add Angle R: Yielding Hip Add Angle R:
-Definition: Right hip joint adduction/abduction angle at the end of the yielding phase.+  Definition: Right hip joint adduction/abduction angle at the end of the yielding phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Yielding Hip IR Angle L: Yielding Hip IR Angle L:
-Definition: Left hip joint internal/external rotation angle at the end of the yielding phase.+  Definition: Left hip joint internal/external rotation angle at the end of the yielding phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Yielding Hip IR Angle R: Yielding Hip IR Angle R:
-Definition: Right hip joint internal/external rotation angle at the end of the yielding phase.+  Definition: Right hip joint internal/external rotation angle at the end of the yielding phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Yielding Knee Flexion Angle L: Yielding Knee Flexion Angle L:
-Definition: Left knee joint flexion/ extension angle at the end of the yielding phase.+  Definition: Left knee joint flexion/ extension angle at the end of the yielding phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Yielding Knee Flexion Angle R: Yielding Knee Flexion Angle R:
-Definition: Right knee joint flexion/ extension angle at the end of the yielding phase.+  Definition: Right knee joint flexion/ extension angle at the end of the yielding phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Yielding Ankle Flexion Angle L: Yielding Ankle Flexion Angle L:
-Definition: Left ankle joint flexion/ extension angle at the end of the yielding phase.+  Definition: Left ankle joint flexion/ extension angle at the end of the yielding phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Yielding Ankle Flexion Angle R: Yielding Ankle Flexion Angle R:
-Definition: Right ankle joint flexion/ extension angle at the end of the yielding phase.+  Definition: Right ankle joint flexion/ extension angle at the end of the yielding phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
  
 +**L/R SL CMJ - Braking Metrics**
  
-L/R SL CMJ-Braking Metrics 
 Braking Time:  Braking Time: 
  Definition: Temporal duration of the braking phase.  Definition: Temporal duration of the braking phase.
  Calculation: Braking End (s) – Yielding End (s)   Calculation: Braking End (s) – Yielding End (s) 
  Units: Seconds (s)  Units: Seconds (s)
 +
 Braking Avg Vel:  Braking Avg Vel: 
  Definition: Average center of mass vertical velocity across the braking phase.  Definition: Average center of mass vertical velocity across the braking phase.
  Calculation: mean (com_velocity)[braking_end:yielding_end]  Calculation: mean (com_velocity)[braking_end:yielding_end]
  Units: Meters per second (m/s)  Units: Meters per second (m/s)
 +
 Braking Peak Vel:  Braking Peak Vel: 
-Definition: Peak negative center of mass vertical velocity within the braking phase.+  Definition: Peak negative center of mass vertical velocity within the braking phase.
  Calculation: min (com_velocity) [braking_end:yielding_end]  Calculation: min (com_velocity) [braking_end:yielding_end]
  Units: Meters per second (m/s)  Units: Meters per second (m/s)
 +
 Braking Avg Force: Braking Avg Force:
  Definition: Average vertical force production during the braking phase.   Definition: Average vertical force production during the braking phase. 
  Calculation: mean(Force(N))[braking_end:yielding_end]  Calculation: mean(Force(N))[braking_end:yielding_end]
  Units: Newtons (N)  Units: Newtons (N)
 +
 Braking Avg Force Rel: Braking Avg Force Rel:
-Definition: Average vertical force production during the braking phase normalized to participant’s body mass.+  Definition: Average vertical force production during the braking phase normalized to participant’s body mass.
  Calculation: mean(Force(N))[braking_end:yielding_end] / mass (kg)  Calculation: mean(Force(N))[braking_end:yielding_end] / mass (kg)
  Units: Newtons per kilogram (N/kg)  Units: Newtons per kilogram (N/kg)
 +
 Braking Peak Force:  Braking Peak Force: 
-Definition: Peak vertical force production during the braking phase normalized to participant’s body mass.+  Definition: Peak vertical force production during the braking phase normalized to participant’s body mass.
  Calculation: max(Force(N))[braking_end:yielding_end]   Calculation: max(Force(N))[braking_end:yielding_end] 
  Units: Newtons (N)  Units: Newtons (N)
 +
 Braking Peak Force Rel: Braking Peak Force Rel:
-Definition: Peak vertical force production during the braking phase normalized to participant’s body mass.+  Definition: Peak vertical force production during the braking phase normalized to participant’s body mass.
  Calculation: max(Force(N))[braking_end:yielding_end] / mass (kg)  Calculation: max(Force(N))[braking_end:yielding_end] / mass (kg)
  Units: Newtons per kilogram (N/kg)  Units: Newtons per kilogram (N/kg)
Line 562: Line 595:
 Braking Avg RFD:  Braking Avg RFD: 
  Definition: Average rate of force development during the braking phase.  Definition: Average rate of force development during the braking phase.
-Calculation: mean(Force(N)[braking_end:yielding_end] / Braking Time (s)+  Calculation: mean(Force(N)[braking_end:yielding_end] / Braking Time (s)
  Units: Newtons per second (N/s)  Units: Newtons per second (N/s)
  
 Braking Avg RFD Rel: Braking Avg RFD Rel:
-Definition: Average rate of force development during the braking phase normalized to participant’s body mass. +  Definition: Average rate of force development during the braking phase normalized to participant’s body mass. 
-Calculation: mean(Force(N)[braking_end:yielding_end] / Braking Time (s))/ mass (kg) +  Calculation: mean(Force(N)[braking_end:yielding_end] / Braking Time (s))/ mass (kg) 
  Units: Newtons per second per kilogram (N/s/kg)  Units: Newtons per second per kilogram (N/s/kg)
 +
 Braking Peak RFD: Braking Peak RFD:
  Definition: Peak rate of force development during the braking phase.  Definition: Peak rate of force development during the braking phase.
-Calculation: max(Force(N)[braking_end:yielding_end] / BrakingTime (s)+  Calculation: max(Force(N)[braking_end:yielding_end] / BrakingTime (s)
  Units: Newtons per second (N/s)  Units: Newtons per second (N/s)
 +
 Braking Peak RFD Rel: Braking Peak RFD Rel:
-Definition: Peak rate of force development during the braking phase normalized to body mass. +  Definition: Peak rate of force development during the braking phase normalized to body mass. 
-Calculation: max(Force(N)[braking_end:yielding_end] / Braking Time (s) / mass(kg).+  Calculation: max(Force(N)[braking_end:yielding_end] / Braking Time (s) / mass(kg).
  Units: Newtons per second per kilogram (N/s/kg)  Units: Newtons per second per kilogram (N/s/kg)
 +
 Braking Peak Power:  Braking Peak Power: 
-Definition: Peak power production during the braking phase. +  Definition: Peak power production during the braking phase. 
-Calculation: max(Force(N)[yielding_end:CMJstart] * com_velocity(m/s)[yielding_end:CMJstart]+  Calculation: max(Force(N)[yielding_end:CMJstart] * com_velocity(m/s)[yielding_end:CMJstart]
  Units: Watts (W)  Units: Watts (W)
 +
 Braking Peak Power Rel: Braking Peak Power Rel:
-Definition: Peak power production during the braking phase normalized to the participant’s body mass. +  Definition: Peak power production during the braking phase normalized to the participant’s body mass. 
-Calculation: max(Force(N)[braking_end:yielding_end] * com_velocity(m/s)[braking_end:yielding_end]) / mass(kg)+  Calculation: max(Force(N)[braking_end:yielding_end] * com_velocity(m/s)[braking_end:yielding_end]) / mass(kg)
  Units: Watts per kilogram (W/kg)  Units: Watts per kilogram (W/kg)
 +
 Braking Avg Power: Braking Avg Power:
  Definition: Average power production during the braking phase.  Definition: Average power production during the braking phase.
-Calculation: mean(Force(N)[braking_end:yielding_end] * com_velocity(m/s)[ braking_end:yielding_end])+  Calculation: mean(Force(N)[braking_end:yielding_end] * com_velocity(m/s)[ braking_end:yielding_end])
  Units: Watts (W)  Units: Watts (W)
 +
 Braking Avg Power Rel: Braking Avg Power Rel:
-Definition: Average power production during the braking phase normalized to the participant’s body mass. +  Definition: Average power production during the braking phase normalized to the participant’s body mass. 
-Calculation: mean(Force(N)[braking_end:yielding_end] * com_velocity(m/s)[[braking_end:yielding_end]) / mass(kg)+  Calculation: mean(Force(N)[braking_end:yielding_end] * com_velocity(m/s)[[braking_end:yielding_end]) / mass(kg)
  Units: Watts per kilogram (W/kg)  Units: Watts per kilogram (W/kg)
  
 Braking Peak Work:  Braking Peak Work: 
-Definition: Peak work production during the braking phase. +  Definition: Peak work production during the braking phase. 
-Calculation: max(Force(N)[braking_end:yielding_end] * com_position(m)[[braking_end:yielding_end])+  Calculation: max(Force(N)[braking_end:yielding_end] * com_position(m)[[braking_end:yielding_end])
  Units: Joules(J)  Units: Joules(J)
 +
 Braking Peak Work Rel: Braking Peak Work Rel:
-Definition: Peak power production during the braking phase normalized to the participant’s body mass. +  Definition: Peak power production during the braking phase normalized to the participant’s body mass. 
-Calculation: max(Force(N)[braking_end:yielding_end] * com_position(m)[[braking_end:yielding_end]) /  mass(kg)+  Calculation: max(Force(N)[braking_end:yielding_end] * com_position(m)[[braking_end:yielding_end]) /  mass(kg)
  Units: Joules per kilogram (J/kg)  Units: Joules per kilogram (J/kg)
 +
 Braking Avg Work: Braking Avg Work:
  Definition: Average power production during the braking phase.  Definition: Average power production during the braking phase.
-Calculation: mean(Force(N)[braking_end:yielding_end] * com_position(m)[[braking_end:yielding_end])+  Calculation: mean(Force(N)[braking_end:yielding_end] * com_position(m)[[braking_end:yielding_end])
  Units: Joules (J)  Units: Joules (J)
 +
 Braking Avg Work Rel: Braking Avg Work Rel:
  Definition: Average power production during the braking phase.  Definition: Average power production during the braking phase.
-Calculation: mean(Force(N)[braking_end:yielding_end] * com_position(m)[[braking_end:yielding_end]) / mass(kg)+  Calculation: mean(Force(N)[braking_end:yielding_end] * com_position(m)[[braking_end:yielding_end]) / mass(kg)
  Units: Joules per kilogram(J/ kg)  Units: Joules per kilogram(J/ kg)
 +
 Braking Torso Angle: Braking Torso Angle:
  Definition: Segment angle of the torso at the end of the braking phase.   Definition: Segment angle of the torso at the end of the braking phase. 
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Braking Hip Flexion Angle L: Braking Hip Flexion Angle L:
-Definition: Left hip joint flexion/ extension angle at the end of the braking phase. +  Definition: Left hip joint flexion/ extension angle at the end of the braking phase. 
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Braking Hip Flexion Angle R: Braking Hip Flexion Angle R:
-Definition: Right hip flexion/ extension joint angle at the end of the braking phase.+  Definition: Right hip flexion/ extension joint angle at the end of the braking phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Braking Hip Add Angle L: Braking Hip Add Angle L:
-Definition: Left hip joint adduction/abduction angle at the end of the braking phase.+  Definition: Left hip joint adduction/abduction angle at the end of the braking phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Braking Hip Add Angle R: Braking Hip Add Angle R:
-Definition: Right hip joint adduction/abduction angle at the end of the braking phase.+  Definition: Right hip joint adduction/abduction angle at the end of the braking phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Braking Hip IR Angle L: Braking Hip IR Angle L:
-Definition: Left hip joint internal/external rotation angle at the end of the braking phase.+  Definition: Left hip joint internal/external rotation angle at the end of the braking phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Braking Hip IR Angle R: Braking Hip IR Angle R:
-Definition: Right hip joint internal/external rotation angle at the end of the braking phase.+  Definition: Right hip joint internal/external rotation angle at the end of the braking phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Braking Knee Flexion Angle L: Braking Knee Flexion Angle L:
-Definition: Left knee joint flexion/ extension angle at the end of the braking phase.+  Definition: Left knee joint flexion/ extension angle at the end of the braking phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Braking Knee Flexion Angle R: Braking Knee Flexion Angle R:
-Definition: Right knee joint flexion/ extension angle at the end of the braking phase.+  Definition: Right knee joint flexion/ extension angle at the end of the braking phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Braking Ankle Flexion Angle L: Braking Ankle Flexion Angle L:
-Definition: Left ankle joint flexion/ extension angle at the end of the braking phase.+  Definition: Left ankle joint flexion/ extension angle at the end of the braking phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Braking Ankle Flexion Angle R: Braking Ankle Flexion Angle R:
-Definition: Right ankle joint flexion/ extension angle at the end of the braking phase.+  Definition: Right ankle joint flexion/ extension angle at the end of the braking phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
  
 +**L/R SL CMJ - Concentric Metrics**
  
- 
- 
- 
- 
-L/R SL CMJ-Concentric Metrics 
 Concentric Time:  Concentric Time: 
  Definition: Temporal duration of the concentric phase.  Definition: Temporal duration of the concentric phase.
  Calculation: Takeoff (s) – Braking End (s)   Calculation: Takeoff (s) – Braking End (s) 
  Units: Seconds (s)  Units: Seconds (s)
 +
 Concentric Avg Vel:  Concentric Avg Vel: 
  Definition: Average center of mass vertical velocity across the concentric phase.  Definition: Average center of mass vertical velocity across the concentric phase.
  Calculation: mean (com_velocity)[takeoff:braking_end]  Calculation: mean (com_velocity)[takeoff:braking_end]
  Units: Meters per second (m/s)  Units: Meters per second (m/s)
 +
 Concentric Peak Vel:  Concentric Peak Vel: 
-Definition: Peak negative center of mass vertical velocity within the concentric phase.+  Definition: Peak negative center of mass vertical velocity within the concentric phase.
  Calculation: max (com_velocity) [takeoff:braking_end]  Calculation: max (com_velocity) [takeoff:braking_end]
  Units: Meters per second (m/s)  Units: Meters per second (m/s)
 +
 Concentric Avg Force: Concentric Avg Force:
  Definition: Average vertical force production during the concentric phase.   Definition: Average vertical force production during the concentric phase. 
  Calculation: mean(Force(N))[takeoff:braking_end]  Calculation: mean(Force(N))[takeoff:braking_end]
  Units: Newtons (N)  Units: Newtons (N)
 +
 Concentric Avg Force Rel: Concentric Avg Force Rel:
-Definition: Average vertical force production during the concentric phase normalized to participant’s body mass.+  Definition: Average vertical force production during the concentric phase normalized to participant’s body mass.
  Calculation: mean(Force(N))[takeoff:braking_end] / mass (kg)  Calculation: mean(Force(N))[takeoff:braking_end] / mass (kg)
  Units: Newtons per kilogram (N/kg)  Units: Newtons per kilogram (N/kg)
 +
 Concentric Peak Force:  Concentric Peak Force: 
-Definition: Peak vertical force production during the concentric phase normalized to participant’s body mass.+  Definition: Peak vertical force production during the concentric phase normalized to participant’s body mass.
  Calculation: max(Force(N))[takeoff:braking_end]   Calculation: max(Force(N))[takeoff:braking_end] 
  Units: Newtons (N)  Units: Newtons (N)
 +
 Concentric Peak Force Rel: Concentric Peak Force Rel:
-Definition: Peak vertical force production during the concentric phase normalized to participant’s body mass.+  Definition: Peak vertical force production during the concentric phase normalized to participant’s body mass.
  Calculation: max(Force(N))[takeoff: braking_end] / mass (kg)  Calculation: max(Force(N))[takeoff: braking_end] / mass (kg)
  Units: Newtons per kilogram (N/kg)  Units: Newtons per kilogram (N/kg)
Line 692: Line 747:
 Concentric Avg RFD:  Concentric Avg RFD: 
  Definition: Average rate of force development during the concentric phase.  Definition: Average rate of force development during the concentric phase.
-Calculation: mean(Force(N)[takeoff:braking_end] / Concentric Time (s)+  Calculation: mean(Force(N)[takeoff:braking_end] / Concentric Time (s)
  Units: Newtons per second (N/s)  Units: Newtons per second (N/s)
  
 Concentric Avg RFD Rel: Concentric Avg RFD Rel:
-Definition: Average rate of force development during the concentric phase normalized to participant’s body mass. +  Definition: Average rate of force development during the concentric phase normalized to participant’s body mass. 
-Calculation: mean(Force(N)[takeoff: braking_end] / Concentric Time (s))/ mass (kg) +  Calculation: mean(Force(N)[takeoff: braking_end] / Concentric Time (s))/ mass (kg) 
  Units: Newtons per second per kilogram (N/s/kg)  Units: Newtons per second per kilogram (N/s/kg)
 +
 Concentric Peak RFD: Concentric Peak RFD:
  Definition: Peak rate of force development during the concentric phase.  Definition: Peak rate of force development during the concentric phase.
-Calculation: max(Force(N)[takeoff:braking_end] / Concentric Time (s)+  Calculation: max(Force(N)[takeoff:braking_end] / Concentric Time (s)
  Units: Newtons per second (N/s)  Units: Newtons per second (N/s)
- 
  
 Concentric Peak RFD Rel: Concentric Peak RFD Rel:
-Definition: Peak rate of force development during the concentric phase normalized to body mass. +  Definition: Peak rate of force development during the concentric phase normalized to body mass. 
-Calculation: max(Force(N)[takeoff:braking_end] / Concentric Time (s) / mass(kg).+  Calculation: max(Force(N)[takeoff:braking_end] / Concentric Time (s) / mass(kg).
  Units: Newtons per second per kilogram (N/s/kg)  Units: Newtons per second per kilogram (N/s/kg)
 +
 Concentric Peak Power:  Concentric Peak Power: 
-Definition: Peak power production during the concentric phase. +  Definition: Peak power production during the concentric phase. 
-Calculation: max(Force(N)[takeoff:braking_end] * com_velocity(m/s)[takeoff:braking_end]+  Calculation: max(Force(N)[takeoff:braking_end] * com_velocity(m/s)[takeoff:braking_end]
  Units: Watts (W)  Units: Watts (W)
 +
 Concentric Peak Power Rel: Concentric Peak Power Rel:
-Definition: Peak power production during the concentric phase normalized to the participant’s body mass. +  Definition: Peak power production during the concentric phase normalized to the participant’s body mass. 
-Calculation: max(Force(N)[takeoff:braking_end] * com_velocity(m/s)[takeoff:braking_end]) / mass(kg)+  Calculation: max(Force(N)[takeoff:braking_end] * com_velocity(m/s)[takeoff:braking_end]) / mass(kg)
  Units: Watts per kilogram (W/kg)  Units: Watts per kilogram (W/kg)
 +
 Concentric Avg Power: Concentric Avg Power:
  Definition: Average power production during the concentric phase.  Definition: Average power production during the concentric phase.
-Calculation: mean(Force(N)[takeoff:braking_end] * com_velocity(m/s)[ takeoff:braking_end])+  Calculation: mean(Force(N)[takeoff:braking_end] * com_velocity(m/s)[ takeoff:braking_end])
  Units: Watts (W)  Units: Watts (W)
 +
 Concentric Avg Power Rel: Concentric Avg Power Rel:
-Definition: Average power production during the concentric phase normalized to the participant’s body mass. +  Definition: Average power production during the concentric phase normalized to the participant’s body mass. 
-Calculation: mean(Force(N)[takeoff:braking_end] * com_velocity(m/s)[[takeoff:braking_end]) / mass(kg)+  Calculation: mean(Force(N)[takeoff:braking_end] * com_velocity(m/s)[[takeoff:braking_end]) / mass(kg)
  Units: Watts per kilogram (W/kg)  Units: Watts per kilogram (W/kg)
 +
 Concentric Peak Work:  Concentric Peak Work: 
-Definition: Peak work production during the concentric phase. +  Definition: Peak work production during the concentric phase. 
-Calculation: max(Force(N)[takeoff:braking_end] * com_position(m)[[takeoff:braking_end])+  Calculation: max(Force(N)[takeoff:braking_end] * com_position(m)[[takeoff:braking_end])
  Units: Joules(J)  Units: Joules(J)
 +
 Concentric Peak Work Rel: Concentric Peak Work Rel:
-Definition: Peak power production during the concentric phase normalized to the participant’s body mass. +  Definition: Peak power production during the concentric phase normalized to the participant’s body mass. 
-Calculation: max(Force(N)[takeoff:braking_end] * com_position(m)[[takeoff:braking_end]) /  mass(kg)+  Calculation: max(Force(N)[takeoff:braking_end] * com_position(m)[[takeoff:braking_end]) /  mass(kg)
  Units: Joules per kilogram (J/kg)  Units: Joules per kilogram (J/kg)
 +
 Concentric Avg Work: Concentric Avg Work:
  Definition: Average power production during the braking phase.  Definition: Average power production during the braking phase.
-Calculation: mean(Force(N)[takeoff:braking_end] * com_position(m)[[takeoff:braking_end])+  Calculation: mean(Force(N)[takeoff:braking_end] * com_position(m)[[takeoff:braking_end])
  Units: Joules (J)  Units: Joules (J)
 +
 Concentric Avg Work Rel: Concentric Avg Work Rel:
  Definition: Average power production during the concentric phase.  Definition: Average power production during the concentric phase.
-Calculation: mean(Force(N)[takeoff_end:braking_end] * com_position(m)[[takeoff:braking_end]) / mass(kg)+  Calculation: mean(Force(N)[takeoff_end:braking_end] * com_position(m)[[takeoff:braking_end]) / mass(kg)
  Units: Joules per kilogram(J/ kg)  Units: Joules per kilogram(J/ kg)
 +
 Concentric Torso Angle: Concentric Torso Angle:
  Definition: Segment angle of the torso at the end of the concentric phase.   Definition: Segment angle of the torso at the end of the concentric phase. 
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Concentric Hip Flexion Angle L: Concentric Hip Flexion Angle L:
-Definition: Left hip joint flexion/ extension angle at the end of the concentric phase. +  Definition: Left hip joint flexion/ extension angle at the end of the concentric phase. 
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Concentric Hip Flexion Angle R: Concentric Hip Flexion Angle R:
-Definition: Right hip flexion/ extension joint angle at the end of the concentric phase.+  Definition: Right hip flexion/ extension joint angle at the end of the concentric phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Concentric Hip Add Angle L: Concentric Hip Add Angle L:
-Definition: Left hip joint adduction/abduction angle at the end of the concentric phase.+  Definition: Left hip joint adduction/abduction angle at the end of the concentric phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Concentric Hip Add Angle R: Concentric Hip Add Angle R:
-Definition: Right hip joint adduction/abduction angle at the end of the concentric phase.+  Definition: Right hip joint adduction/abduction angle at the end of the concentric phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Concentric Hip IR Angle L: Concentric Hip IR Angle L:
-Definition: Left hip joint internal/external rotation angle at the end of the concentric phase.+  Definition: Left hip joint internal/external rotation angle at the end of the concentric phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Concentric Hip IR Angle R: Concentric Hip IR Angle R:
-Definition: Right hip joint internal/external rotation angle at the end of the concentric phase.+  Definition: Right hip joint internal/external rotation angle at the end of the concentric phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Concentric Knee Flexion Angle L: Concentric Knee Flexion Angle L:
-Definition: Left knee joint flexion/ extension angle at the end of the concentric phase.+  Definition: Left knee joint flexion/ extension angle at the end of the concentric phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Concentric Knee Flexion Angle R: Concentric Knee Flexion Angle R:
-Definition: Right knee joint flexion/ extension angle at the end of the concentric phase.+  Definition: Right knee joint flexion/ extension angle at the end of the concentric phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Concentric Ankle Flexion Angle L: Concentric Ankle Flexion Angle L:
-Definition: Left ankle joint flexion/ extension angle at the end of the concentric phase.+  Definition: Left ankle joint flexion/ extension angle at the end of the concentric phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Concentric Ankle Flexion Angle R: Concentric Ankle Flexion Angle R:
-Definition: Right ankle joint flexion/ extension angle at the end of the concentric phase.+  Definition: Right ankle joint flexion/ extension angle at the end of the concentric phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
  
 +**L/R SL CMJ - Landing Metrics**
  
- 
- 
- 
- 
-L/R SL CMJ-Landing Metrics 
 Landing Time:  Landing Time: 
  Definition: Temporal duration of the landing phase.  Definition: Temporal duration of the landing phase.
  Calculation: Landing End (s) – Ground Contact (s)   Calculation: Landing End (s) – Ground Contact (s) 
  Units: Seconds (s)  Units: Seconds (s)
 +
 Landing Avg Vel:  Landing Avg Vel: 
  Definition: Average center of mass vertical velocity across the landing phase.  Definition: Average center of mass vertical velocity across the landing phase.
  Calculation: mean (com_velocity)[landing_end:ground_contact]  Calculation: mean (com_velocity)[landing_end:ground_contact]
  Units: Meters per second (m/s)  Units: Meters per second (m/s)
 +
 Landing Peak Vel:  Landing Peak Vel: 
-Definition: Peak negative center of mass vertical velocity within the landing phase.+  Definition: Peak negative center of mass vertical velocity within the landing phase.
  Calculation: min (com_velocity) [landing_end:ground_contact]  Calculation: min (com_velocity) [landing_end:ground_contact]
  Units: Meters per second (m/s)  Units: Meters per second (m/s)
 +
 Landing Avg Force: Landing Avg Force:
  Definition: Average vertical force production during the landing phase.   Definition: Average vertical force production during the landing phase. 
  Calculation: mean(Force(N))[ landing_end:ground_contact]  Calculation: mean(Force(N))[ landing_end:ground_contact]
  Units: Newtons (N)  Units: Newtons (N)
 +
 Landing Avg Force Rel: Landing Avg Force Rel:
-Definition: Average vertical force production during the landing phase normalized to participant’s body mass.+  Definition: Average vertical force production during the landing phase normalized to participant’s body mass.
  Calculation: mean(Force(N))[ landing_end:ground_contact] / mass (kg)  Calculation: mean(Force(N))[ landing_end:ground_contact] / mass (kg)
  Units: Newtons per kilogram (N/kg)  Units: Newtons per kilogram (N/kg)
 +
 Landing Peak Force:  Landing Peak Force: 
-Definition: Peak vertical force production during the landing phase normalized to participant’s body mass.+  Definition: Peak vertical force production during the landing phase normalized to participant’s body mass.
  Calculation: max(Force(N))[landing_end:ground_contact]   Calculation: max(Force(N))[landing_end:ground_contact] 
  Units: Newtons (N)  Units: Newtons (N)
 +
 Landing Peak Force Rel: Landing Peak Force Rel:
-Definition: Peak vertical force production during the landing phase normalized to participant’s body mass.+  Definition: Peak vertical force production during the landing phase normalized to participant’s body mass.
  Calculation: max(Force(N))[ landing_end:ground_contact] / mass (kg)  Calculation: max(Force(N))[ landing_end:ground_contact] / mass (kg)
  Units: Newtons per kilogram (N/kg)  Units: Newtons per kilogram (N/kg)
Line 823: Line 899:
 Landing Avg RFD:  Landing Avg RFD: 
  Definition: Average rate of force development during the landing phase.  Definition: Average rate of force development during the landing phase.
-Calculation: mean(Force(N)[ landing_end:ground_contact] / Concentric Time (s)+  Calculation: mean(Force(N)[ landing_end:ground_contact] / Concentric Time (s)
  Units: Newtons per second (N/s)  Units: Newtons per second (N/s)
  
 Landing Avg RFD Rel: Landing Avg RFD Rel:
-Definition: Average rate of force development during the landing phase normalized to participant’s body mass. +  Definition: Average rate of force development during the landing phase normalized to participant’s body mass. 
-Calculation: mean(Force(N)[ landing_end:ground_contact] / Concentric Time (s))/ mass (kg) +  Calculation: mean(Force(N)[ landing_end:ground_contact] / Concentric Time (s))/ mass (kg) 
  Units: Newtons per second per kilogram (N/s/kg)  Units: Newtons per second per kilogram (N/s/kg)
 +
 Landing Peak RFD: Landing Peak RFD:
  Definition: Peak rate of force development during the landing phase.  Definition: Peak rate of force development during the landing phase.
-Calculation: max(Force(N)[ landing_end:ground_contact] / Concentric Time (s)+  Calculation: max(Force(N)[ landing_end:ground_contact] / Concentric Time (s)
  Units: Newtons per second (N/s)  Units: Newtons per second (N/s)
 +
 Landing Peak RFD Rel: Landing Peak RFD Rel:
-Definition: Peak rate of force development during the landing phase normalized to body mass. +  Definition: Peak rate of force development during the landing phase normalized to body mass. 
-Calculation: max(Force(N)[ landing_end:ground_contact] / Concentric Time (s) / mass(kg).+  Calculation: max(Force(N)[ landing_end:ground_contact] / Concentric Time (s) / mass(kg).
  Units: Newtons per second per kilogram (N/s/kg)  Units: Newtons per second per kilogram (N/s/kg)
 +
 Landing Peak Power:  Landing Peak Power: 
-Definition: Peak power production during the landing phase. +  Definition: Peak power production during the landing phase. 
-Calculation: max(Force(N)[ landing_end:ground_contact] * com_velocity(m/s)[ landing_end:ground_contact]+  Calculation: max(Force(N)[ landing_end:ground_contact] * com_velocity(m/s)[ landing_end:ground_contact]
  Units: Watts (W)  Units: Watts (W)
 +
 Landing Peak Power Rel: Landing Peak Power Rel:
-Definition: Peak power production during the landing phase normalized to the participant’s body mass. +  Definition: Peak power production during the landing phase normalized to the participant’s body mass. 
-Calculation: max(Force(N)[ landing_end:ground_contact] * com_velocity(m/s)[landing_end:ground_contact]) / mass(kg)+  Calculation: max(Force(N)[ landing_end:ground_contact] * com_velocity(m/s)[landing_end:ground_contact]) / mass(kg)
  Units: Watts per kilogram (W/kg)  Units: Watts per kilogram (W/kg)
 +
 Landing Avg Power: Landing Avg Power:
  Definition: Average power production during the landing phase.  Definition: Average power production during the landing phase.
-Calculation: mean(Force(N)[ landing_end:ground_contact] * com_velocity(m/s)[landing_end:ground_contact+  Calculation: mean(Force(N)[ landing_end:ground_contact] * com_velocity(m/s)[landing_end:ground_contact
  Units: Watts (W)  Units: Watts (W)
 +
 Landing Avg Power Rel: Landing Avg Power Rel:
-Definition: Average power production during the landing phase normalized to the participant’s body mass. +  Definition: Average power production during the landing phase normalized to the participant’s body mass. 
-Calculation: mean(Force(N)[ landing_end:ground_contact] * com_velocity(m/s)[landing_end:ground_contact]) / mass(kg)+  Calculation: mean(Force(N)[ landing_end:ground_contact] * com_velocity(m/s)[landing_end:ground_contact]) / mass(kg)
  Units: Watts per kilogram (W/kg)  Units: Watts per kilogram (W/kg)
 +
 Landing Peak Work:  Landing Peak Work: 
-Definition: Peak work production during the landing phase. +  Definition: Peak work production during the landing phase. 
-Calculation: max(Force(N)[ landing_end:ground_contact] * com_position(m)[ landing_end:ground_contact])+  Calculation: max(Force(N)[ landing_end:ground_contact] * com_position(m)[ landing_end:ground_contact])
  Units: Joules(J)  Units: Joules(J)
 +
 Landing Peak Work Rel: Landing Peak Work Rel:
-Definition: Peak power production during the landing phase normalized to the participant’s body mass. +  Definition: Peak power production during the landing phase normalized to the participant’s body mass. 
-Calculation: max(Force(N)[ landing_end:ground_contact] * com_position(m)[ landing_end:ground_contact]) /  mass(kg)+  Calculation: max(Force(N)[ landing_end:ground_contact] * com_position(m)[ landing_end:ground_contact]) /  mass(kg)
  Units: Joules per kilogram (J/kg)  Units: Joules per kilogram (J/kg)
 +
 Landing Avg Work: Landing Avg Work:
  Definition: Average power production during the landing phase.  Definition: Average power production during the landing phase.
-Calculation: mean(Force(N)[ landing_end:ground_contact] * com_position(m)[landing_end:ground_contact])+  Calculation: mean(Force(N)[ landing_end:ground_contact] * com_position(m)[landing_end:ground_contact])
  Units: Joules (J)  Units: Joules (J)
 +
 Landing Avg Work Rel: Landing Avg Work Rel:
  Definition: Average power production during the landing phase.  Definition: Average power production during the landing phase.
-Calculation: mean(Force(N)[ landing_end:ground_contact] * com_position(m)[ landing_end:ground_contact]) / mass(kg)+  Calculation: mean(Force(N)[ landing_end:ground_contact] * com_position(m)[ landing_end:ground_contact]) / mass(kg)
  Units: Joules per kilogram(J/ kg)  Units: Joules per kilogram(J/ kg)
 +
 Landing Torso Angle: Landing Torso Angle:
  Definition: Segment angle of the torso at the end of the landing phase.   Definition: Segment angle of the torso at the end of the landing phase. 
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Landing Hip Flexion Angle L: Landing Hip Flexion Angle L:
-Definition: Left hip joint flexion/ extension angle at the end of the landing phase. +  Definition: Left hip joint flexion/ extension angle at the end of the landing phase. 
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Landing Hip Flexion Angle R: Landing Hip Flexion Angle R:
-Definition: Right hip flexion/ extension joint angle at the end of the landing phase.+  Definition: Right hip flexion/ extension joint angle at the end of the landing phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Landing Hip Add Angle L: Landing Hip Add Angle L:
-Definition: Left hip joint adduction/abduction angle at the end of the landing phase.+  Definition: Left hip joint adduction/abduction angle at the end of the landing phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Landing Hip Add Angle R: Landing Hip Add Angle R:
-Definition: Right hip joint adduction/abduction angle at the end of the landing phase.+  Definition: Right hip joint adduction/abduction angle at the end of the landing phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
- 
  
 Landing Hip IR Angle L: Landing Hip IR Angle L:
-Definition: Left hip joint internal/external rotation angle at the end of the landing phase.+  Definition: Left hip joint internal/external rotation angle at the end of the landing phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Landing Hip IR Angle R: Landing Hip IR Angle R:
-Definition: Right hip joint internal/external rotation angle at the end of the landing phase.+  Definition: Right hip joint internal/external rotation angle at the end of the landing phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Landing Knee Flexion Angle L: Landing Knee Flexion Angle L:
-Definition: Left knee joint flexion/ extension angle at the end of the landing phase.+  Definition: Left knee joint flexion/ extension angle at the end of the landing phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Landing Knee Flexion Angle R: Landing Knee Flexion Angle R:
-Definition: Right knee joint flexion/ extension angle at the end of the landing phase.+  Definition: Right knee joint flexion/ extension angle at the end of the landing phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
 +
 Landing Ankle Flexion Angle L: Landing Ankle Flexion Angle L:
-Definition: Left ankle joint flexion/ extension angle at the end of the landing phase.+  Definition: Left ankle joint flexion/ extension angle at the end of the landing phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
  
 Landing Ankle Flexion Angle R: Landing Ankle Flexion Angle R:
-Definition: Right ankle joint flexion/ extension angle at the end of the landing phase.+  Definition: Right ankle joint flexion/ extension angle at the end of the landing phase.
  Calculation:  Calculation:
  Units: Degrees (°)  Units: Degrees (°)
  
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  • Last modified: 16 months ago
  • by ethan