Air-Chamber Based Soft Six-Axis Force/Torque Sensor for Human-Robot Interaction

TL;DR

This paper introduces a soft, air-chamber based six-axis force/torque sensor with a novel decoupling method, achieving accurate measurements while maintaining softness, suitable for safe human-robot interaction.

Contribution

The paper presents a new soft six-axis force/torque sensor with an innovative decoupling approach using a hierarchical structure, improving accuracy and ease of calibration.

Findings

Measuring range of 50 N force and 1 Nm torque.

Average deviation of 4.9%.

Repeatability of 2.7%.

Abstract

Soft multi-axis force/torque sensors provide safe and precise force interaction. Capturing the complete degree-of-freedom of force is imperative for accurate force measurement with six-axis force/torque sensors. However, cross-axis coupling can lead to calibration issues and decreased accuracy. In this instance, developing a soft and accurate six-axis sensor is a challenging task. In this paper, a soft air-chamber type six-axis force/torque sensor with 16-channel barometers is introduced, which housed in hyper-elastic air chambers made of silicone rubber. Additionally, an effective decoupling method is proposed, based on a rigid-soft hierarchical structure, which reduces the six-axis decoupling problem to two three-axis decoupling problems. Finite element model simulation and experiments demonstrate the compatibility of the proposed approach with reality. The prototype's sensing performance is quantitatively measured in terms of static load response, dynamic load response and dynamic response characteristic. It possesses a measuring range of 50 N force and 1 Nm torque, and the average deviation, repeatability, non-linearity and hysteresis are 4.9$\%$, 2.7$\%$, 5.8$\%$ and 6.7$\%$, respectively. The results indicate that the prototype exhibits satisfactory sensing performance while maintaining its softness due to the presence of soft air chambers.