Intelligent Systems
Note: This research group has relocated.

Upside down: affordable high-performance motion platform

2023

Conference Paper

dlg


Parallel robots are capable of high-speed manipulation and have become essential tools in the industry. The proximal placement of their motors and the low weight of their end effectors make them ideal for generating highly dynamic motion. Therefore, parallel robots can be adopted for motion platform designs, as long as end effector loads are low. Traditional motion platforms can be large and powerful to generate multiple g acceleration. However, these designs tend to be expensive and large. Similar but smaller motion platforms feature a small work range with reduced degrees of freedom (DoFs) and a limited payload. Here we seek a medium-sized affordable parallel robot capable of powerful and high-speed 6-DoF motion in a comparably large workspace. This work explores the concept of a quadruped robot flipped upside-down, with the motion platform fixed between its feet. In particular, we exploit the high-power dynamic brushless actuation and the four-leg redundancy when moving the motion platform. We characterize the resulting motion platform by tracking sinusoidal and circular trajectories with varying loads. Dynamic motions in 6 DoFs up to 10 Hz and ± 10 mm amplitude are possible when moving a mass of 300 grams. We demonstrate single-axis end-effector translations up to ± 20 mm at 10 Hz for higher loads of 1.2 kg. The motion platform can be replicated easily by 3D printing and off-the-shelf components. All motion platform-related hardware and the custom-written software required to replicate are open-source.

Author(s): Nayan Man Singh Pradhan and Patrick Frank and An Mo and Alexander Badri-Spröwitz
Year: 2023
Publisher: arXiv

Department(s): Dynamic Locomotion
Bibtex Type: Conference Paper (conference)
Paper Type: Conference

DOI: 10.48550/arXiv.2303.17974

State: Accepted
URL: https://arxiv.org/abs/2303.17974

Links: youtube
github
arxiv
Video:

BibTex

@conference{nayan2023,
  title = {Upside down: affordable high-performance motion platform},
  author = {Pradhan, Nayan Man Singh and Frank, Patrick and Mo, An and Badri-Spr{\"o}witz, Alexander},
  publisher = {arXiv},
  year = {2023},
  doi = {10.48550/arXiv.2303.17974},
  url = {https://arxiv.org/abs/2303.17974}
}