RRA analisys in a lateral drop jump
Posted: Wed Jul 04, 2018 6:27 am
I'm studying a drop jump and a lateral drop jump.
RRA during a "simple" drop jump seems to give very "good" data.
I'm also doing the RRA during the lateral drop jump but I can't improve the analysis.
This is the results:
************************************************************
* Summary of Mass Adjustments to Reduce Residuals *
************************************************************
* Body adjusted: torso
* Mass Center (COM) adjustment: dx =-0.1, dz =-0.1
* New COM location: ~[0.0708943,0.31046,0.1]
************************************************************
* Recommended mass adjustments:
* Total mass change: -53.9802
* ground: orig mass = 0, new mass = 0
* pelvis: orig mass = 13.5531, new mass = 5.09529
* femur_r: orig mass = 10.7041, new mass = 4.02423
* tibia_r: orig mass = 4.26662, new mass = 1.60404
* talus_r: orig mass = 0.115081, new mass = 0.0432648
* calcn_r: orig mass = 1.43851, new mass = 0.540809
* toes_r: orig mass = 0.249265, new mass = 0.0937115
* femur_l: orig mass = 10.7041, new mass = 4.02423
* tibia_l: orig mass = 4.26662, new mass = 1.60404
* talus_l: orig mass = 0.115081, new mass = 0.0432648
* calcn_l: orig mass = 1.43851, new mass = 0.540809
* toes_l: orig mass = 0.249265, new mass = 0.0937115
* torso: orig mass = 39.3997, new mass = 14.8124
************************************************************
* Note: Edit the model to make recommended adjustments to *
* mass properties. *
************************************************************
* Average residuals before adjusting torso COM:
* FX=24.4124 FY=529.365 FZ=-24.7954
* MX=42.5813 MY=-3.88462 MZ=-40.7121
************************************************************
* Average residuals after adjusting torso COM:
* FX=24.1207 FY=537.26 FZ=-25.015
* MX=85.6446 MY=-2.33326 MZ=6.40307
************************************************************
************************************************************
* Final Average Residuals *
************************************************************
* After torso COM and Kinematics adjustments:
* FX=24.1716 FY=536.992 FZ=-25.0714
* MX=85.7588 MY=-2.32113 MZ=6.42498
************************************************************
Like you see FY is very high and FZ negative.
I guess if I'm doing a correct analysis because compared to the normal drop jump where the X axis of the pelvis is oriented with the X axis of the reference; with the lateral drop jump (right or left) the subject starting position (and so starting model pose) is 90deg (or -90deg) rotated depending of the side I jump. I should rotate the model ? (I suppose no because is correct to start rotated).
Scaling and IK seems correct looking at the data (confirmed also from the good data of the RRA during the normal drop jump).
Anybody can give me some advice? I did try to change the task, actuators and ControlContrains file but the value doesn't change (CoM of the pelvis is correct after rescaling the model).
I'm using the gait2392 model.
Thank you
Andrea
RRA during a "simple" drop jump seems to give very "good" data.
I'm also doing the RRA during the lateral drop jump but I can't improve the analysis.
This is the results:
************************************************************
* Summary of Mass Adjustments to Reduce Residuals *
************************************************************
* Body adjusted: torso
* Mass Center (COM) adjustment: dx =-0.1, dz =-0.1
* New COM location: ~[0.0708943,0.31046,0.1]
************************************************************
* Recommended mass adjustments:
* Total mass change: -53.9802
* ground: orig mass = 0, new mass = 0
* pelvis: orig mass = 13.5531, new mass = 5.09529
* femur_r: orig mass = 10.7041, new mass = 4.02423
* tibia_r: orig mass = 4.26662, new mass = 1.60404
* talus_r: orig mass = 0.115081, new mass = 0.0432648
* calcn_r: orig mass = 1.43851, new mass = 0.540809
* toes_r: orig mass = 0.249265, new mass = 0.0937115
* femur_l: orig mass = 10.7041, new mass = 4.02423
* tibia_l: orig mass = 4.26662, new mass = 1.60404
* talus_l: orig mass = 0.115081, new mass = 0.0432648
* calcn_l: orig mass = 1.43851, new mass = 0.540809
* toes_l: orig mass = 0.249265, new mass = 0.0937115
* torso: orig mass = 39.3997, new mass = 14.8124
************************************************************
* Note: Edit the model to make recommended adjustments to *
* mass properties. *
************************************************************
* Average residuals before adjusting torso COM:
* FX=24.4124 FY=529.365 FZ=-24.7954
* MX=42.5813 MY=-3.88462 MZ=-40.7121
************************************************************
* Average residuals after adjusting torso COM:
* FX=24.1207 FY=537.26 FZ=-25.015
* MX=85.6446 MY=-2.33326 MZ=6.40307
************************************************************
************************************************************
* Final Average Residuals *
************************************************************
* After torso COM and Kinematics adjustments:
* FX=24.1716 FY=536.992 FZ=-25.0714
* MX=85.7588 MY=-2.32113 MZ=6.42498
************************************************************
Like you see FY is very high and FZ negative.
I guess if I'm doing a correct analysis because compared to the normal drop jump where the X axis of the pelvis is oriented with the X axis of the reference; with the lateral drop jump (right or left) the subject starting position (and so starting model pose) is 90deg (or -90deg) rotated depending of the side I jump. I should rotate the model ? (I suppose no because is correct to start rotated).
Scaling and IK seems correct looking at the data (confirmed also from the good data of the RRA during the normal drop jump).
Anybody can give me some advice? I did try to change the task, actuators and ControlContrains file but the value doesn't change (CoM of the pelvis is correct after rescaling the model).
I'm using the gait2392 model.
Thank you
Andrea