How can I choose the correct loss function for a specific task? about softzoo HOT 3 CLOSED

What is the meaning of "actuator_v" and"particle_v"? thx

from softzoo.

FinalStepCoMLoss: compute the loss based on the weighted sum of the average position at the last/final step.
PerStepCoVLoss: compute the loss based on the weighted sum of the average velocity at every step.
TrajectoryFollowingLoss: compute the loss based on the distance of the average position at every step as opposed to a desired trajectory.
VelocityFollowingLoss: compute the loss to encourage tracking a target velocity.
WaypointFollowingLoss: compute the loss to encourage tracking a target waypoint.
AnimatedEMDLoss: compute the loss to track a sequence of moving point clouds with earth moving distance (EMD).
RotationLoss: compute the loss to encourage rotation along a desired axis.
ThrowingObjectLoss: compute the loss based on the average position of an object with respect to its starting position at the final step.
ObjectVelocityLoss: compute the loss based on the average velocity of an object at every step.

Please check more detailed implement in ./algorithms/diffsim/loss.py

actuator_v: velocity defined on actuators (muscle groups), where each actuator involves many particles in MPM.
particle_v: velocity defined on MPM particles

from softzoo.

FinalStepCoMLoss: compute the loss based on the weighted sum of the average position at the last/final step. PerStepCoVLoss: compute the loss based on the weighted sum of the average velocity at every step. TrajectoryFollowingLoss: compute the loss based on the distance of the average position at every step as opposed to a desired trajectory. VelocityFollowingLoss: compute the loss to encourage tracking a target velocity. WaypointFollowingLoss: compute the loss to encourage tracking a target waypoint. AnimatedEMDLoss: compute the loss to track a sequence of moving point clouds with earth moving distance (EMD). RotationLoss: compute the loss to encourage rotation along a desired axis. ThrowingObjectLoss: compute the loss based on the average position of an object with respect to its starting position at the final step. ObjectVelocityLoss: compute the loss based on the average velocity of an object at every step.

Please check more detailed implement in ./algorithms/diffsim/loss.py

actuator_v: velocity defined on actuators (muscle groups), where each actuator involves many particles in MPM. particle_v: velocity defined on MPM particles

Thx!

from softzoo.