Hi!
I want to build a model of 4 drones transporting a load using a rigid cable. The cables are attached to the center of mass of the four drones on one side and to the four corners of the box-shaped load on the other side. The joints need to be “spherical”.
As a test, I have created a single URDF file, combining a load (modeld as a box with the same mass and inertia as a Crazyflie drone), a cable (massless cylinder) and a SINGLE drone for simplicity (model of a Crazyflie drone, attached to one of the edge of the load).
If I load the model using pybullet.loadURDF(…) and do pybullet.applyExternalForce(0,6, forceObj=[0, 0, force], posObj=[0, 0, 0], flags=pybullet.WORLD_FRAME) (—> index 6 lets us apply force to the center of mass of the drone), the model starts to go up and it starts to rotate.
This is not what I have expected. What I expected was the load swinging underneath the drone, while the drone is experiencing a force pulling it upwards. To me, for some reason the spherical joints seem rigid, not allowing this swinging motion. It is like the whole model is behaving like a single, rigid body.
I will attach the URDF file, hoping that it is possible to create such a model and that someone is able to spot my mistake.
Thank you in advance!
Hanging load using spherical joints and urdf
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Hanging load using spherical joints and urdf
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Re: Hanging load using spherical joints and urdf
Did you unlock the joint motors, setting the force to zero for POSITION control:
See https://github.com/bulletphysics/bullet ... re.py#L179
See https://github.com/bulletphysics/bullet ... re.py#L179