The animations have some subtlety, but the basic idea is that they all to from t=0 to t=1, and then Anukari drives that t parameter. So for example, the mallet would go from resting at t=0 to fully extended at t=1, and Anukari will animate it at the right speed from 0, up to some value based on the velocity, back to zero.
Some of the objects are cyclic, like the spinning oscillators, and those also use the t=0 to t=1 convention, but require that the animation is seamless (so it looks identical at t=0 and t=1, but does whatever you want in between).
I'm not aware of anyone fully customizing the 3D stuff yet, so the instructions may be a bit rough. If you try it, feel free to contact me at evan@anukari.com or on discord and I'd be happy to answer questions.
The animations have some subtlety, but the basic idea is that they all to from t=0 to t=1, and then Anukari drives that t parameter. So for example, the mallet would go from resting at t=0 to fully extended at t=1, and Anukari will animate it at the right speed from 0, up to some value based on the velocity, back to zero.
Some of the objects are cyclic, like the spinning oscillators, and those also use the t=0 to t=1 convention, but require that the animation is seamless (so it looks identical at t=0 and t=1, but does whatever you want in between).
I'm not aware of anyone fully customizing the 3D stuff yet, so the instructions may be a bit rough. If you try it, feel free to contact me at evan@anukari.com or on discord and I'd be happy to answer questions.