Soft sensors that can discriminate shear and normal force could help provide machines the fine control desirable for safe and effective physical interactions with people. A capacitive sensor is made for this purpose, composed of patterned elastomer and containing both fixed and sliding pillars that allow the sensor to deform and buckle, much like skin itself. The sensor differentiates between simultaneously applied pressure and shear. In addition, finger proximity is detectable up to 15 mm, with a pressure and shear sensitivity of 1 kPa and a displacement resolution of 50 μm. The operation is demonstrated on a simple gripper holding a cup. The combination of features and the straightforward fabrication method make this sensor a candidate for implementation as a sensing skin for humanoid robotics applications.
@article{arxiv.2307.02701,
title = {Touch, press and stroke: a soft capacitive sensor skin},
author = {Mirza S. Sarwar and Ryusuke Ishizaki and Kieran Morton and Claire Preston and Tan Nguyen and Xu Fan and Bertille Dupont and Leanna Hogarth and Takahide Yoshiike and Shahriar Mirabbasi and John D. W. Madden},
journal= {arXiv preprint arXiv:2307.02701},
year = {2023}
}
Comments
9 pages, 5 figures, submitted to Scientific Reports Nature