A Novel Grip Force Measurement Concept for Tactile Stimulation Mechanisms -- Design, Validation, and User Study

TL;DR

This paper introduces a new grip force measurement method embedded in a tactile stimulation device, demonstrating its accuracy, robustness against artifacts, and user response dynamics in tactile feedback scenarios.

Contribution

A novel grip force measurement concept using a single sensor embedded in tactile stimulation mechanisms, reducing measurement artifacts and enabling dynamic grip control analysis.

Findings

Measurement artifacts were only 1% of force.

Average grip force errors were below 4%.

Participants increased grip force in response to tactile stimuli.

Abstract

We developed a new grip force measurement concept that allows for embedding tactile stimulation mechanisms in a gripper. This concept is based on a single force sensor to measure the force applied on each side of the gripper, and it substantially reduces artifacts of force measurement caused by tactor motion. To test the feasibility of this new concept, we built a device that measures control of grip force in response to a tactile stimulation from a moving tactor. First, we used a custom designed testing setup with a second force sensor to calibrate our device over a range of 0 to 20 N without movement of the tactors. Second, we tested the effect of tactor movement on the measured grip force and measured artifacts of 1% of the measured force. Third, we demonstrated that during the application of dynamically changing grip forces, the average errors were 2.9% and 3.7% for the left and right sides of the gripper, respectively. Finally, we conducted a user study and found that in response to tactor movement, participants increased their grip force, and that the increase was larger for a smaller target force and depended on the amount of tactile stimulation.