Thanks for your great work! I wonder why the control point deformation network will output the scaling transformation for Gaussian points which is not indicated in the main paper.
################## in the deformation function ##################
scale = (node_scale[nn_idx] * nn_weight[..., None]).sum(dim=1) * motion_mask
return_dict = {'d_xyz': translate, 'd_rotation': rotation, 'd_scaling': scale}
################## in the rendering function ##################
scales = pc.get_scaling + d_scaling
rotations = pc.get_rotation_bias(d_rotation)Since you adopt LBS to guide the transformation for Gaussian points, I am curious why control points will affect the scaling attribute of Gaussians.
@yihua7 Thanks in advance!
Thanks for your great work! I wonder why the control point deformation network will output the scaling transformation for Gaussian points which is not indicated in the main paper.
Since you adopt LBS to guide the transformation for Gaussian points, I am curious why control points will affect the scaling attribute of Gaussians.
@yihua7 Thanks in advance!