We present the Hbot, a holonomic, singularity-free spherical robot designed for haptic simulations. The Hbot is made up of a caged sphere actuated by steered and driven non-holonomic wheels to produce continuous and unlimited spherical motions. We analyse the kinematic interface between a sphere and n arbitrarily positioned, steered and driven non-holonomic wheels in the general case. We also present a detailed singularity analysis and show that workspace-boundary and workspace-interior singularities can both be avoided at the design stage. We implement a prototype using two steered and driven non-holonomic wheels and show experimental results for trajectory tracking and rendering of various rotational stiffness levels.
Cite
@article{arxiv.1803.07917,
title = {The Hbot : A Holonomic Spherical Haptic Interface Driven by Non-Holonomic Wheels},
author = {Wisdom C. Agboh},
journal= {arXiv preprint arXiv:1803.07917},
year = {2018}
}
Comments
We need to conduct more experiments with the prototype