Hi,
I'm trying to determine the torques required to actuate a fourbar mechanism for a given trajectory. I have provided only one actuator to the mechanism since it's effective DOF is one. The error that I am getting while using static optimization is that the mechanism is over-constrained.
Can you please tell me the workaround for using static optimization with closed-loop mechanisms?
Kind regards
Vinay
Error: Static optimization of closed loop mechanism
- Vinay Kumar
- Posts: 34
- Joined: Thu Nov 08, 2018 6:50 am
Error: Static optimization of closed loop mechanism
Last edited by Vinay Kumar on Mon Oct 14, 2019 11:29 pm, edited 1 time in total.
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- Karthick Ganesan
- Posts: 119
- Joined: Thu Oct 10, 2013 12:11 am
Re: static optimization of closed loop mechanism
Static optimization is used for resolving actuator redundancy. There is no actuator redundancy in four bar mechanism. I think Inverse dynamics is suitable for this .
- Vinay Kumar
- Posts: 34
- Joined: Thu Nov 08, 2018 6:50 am
Re: static optimization of closed loop mechanism
Inverse dynamics is giving me four generalized torques (1) rather than one actuator. What OpenSim does for closed-loop is it bifurcates the last link and then uses a weld constraint to solve for generalized torques (2). My question is how we interpret these four generalized torques into the actuator's torque.
I think we have to use static optimization of CMC to convert generalized torques to let's say an off-axis pneumatic cylinder's actuation force.
Static optimization works fine for fully actuated serial link mechanism, I have tried double pendulum and the likes (using torque actuator).
1) https://simtk-confluence.stanford.edu/d ... e+Dynamics
2) Pg 11, https://usermanual.wiki/Document/Simbod ... .622093507
I think we have to use static optimization of CMC to convert generalized torques to let's say an off-axis pneumatic cylinder's actuation force.
Static optimization works fine for fully actuated serial link mechanism, I have tried double pendulum and the likes (using torque actuator).
1) https://simtk-confluence.stanford.edu/d ... e+Dynamics
2) Pg 11, https://usermanual.wiki/Document/Simbod ... .622093507