Robust Estimation of Contact Force and Location for Magnetic-Field-Based Soft Tactile Sensor Considering Magnetic Source Inconsistency.

Xiaofeng Yang,Bingchu Li,Huimin Shen,Lihong Yang

doi:10.3390/s21165388

Xiaofeng Yang, Bingchu Li + Show 2 more

Open Access

https://doi.org/10.3390/s21165388

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Abstract

Flexible magnetic-field-based tactile sensors (FMFTS) have numerous advantages including low cost, ease of manufacture, simple wiring, high sensitivity, and so on. Flexible magnetic-field-based tactile sensors need to be calibrated before use to build accurate mapping between contact force and magnetic field intensity measured by magnetic sensors; however, when considering remanence inconsistency of magnetic source, each FMFTS needs to be calibrated independently to enhance accuracy, and the complex preparation prevents FMFTS from being used conveniently. A robust estimation method of contact force and location that can tolerate remanence inconsistency of magnetic source in FMFTS is proposed. Firstly, the position and orientation of magnetic source were tracked using the Levenberg–Marquart algorithm, and the tracking results were insensitive to the remanence of magnetic source with appropriate cost function. Secondly, the mapping between magnitude and location of contact force and position and orientation of magnetic source was built with calibration of one sensor; the mapping only depends on the structural response of flexible substrate, and thus can be extended to estimate external force and location for other sensors with the same structure. The proposed method was evaluated in both simulations and experiments, and the results confirm that the estimation of magnitude and location of external force for FMFTS with the same structure and different remanence could reach acceptable accuracy, depending on single calibration. The proposed method can be used to simplify the calibration procedure and remove the barrier for large-scale application of FMFTS and replacement of damaged FMFTS.

Highlights

Tactile sensors made of flexible materials can better adapt to the external environment and provide more information, such as contact pressure, contact location, the texture characteristics, local shape, and material characteristics of the object [1]
The magnetic source tracking algorithm can estimate the pose of the permanent magnet in the face of remanence inconsistency; the robustness of the force and location estimation for Flexible magnetic-field-based tactile sensors (FMFTS) can be improved and calibrations can be simplified by the magnetic source tracking algorithm
We have proposed an effective method for robust estimation of contact conclusion, wethe have proposed an effective method for robust estimation of contact forceInand location for FMFTS, considering magnetic source inconsistency

Summary

Introduction

Tactile sensors made of flexible materials can better adapt to the external environment and provide more information, such as contact pressure, contact location, the texture characteristics, local shape, and material characteristics of the object [1]. Flexible tactile sensors draw from the following measuring principle, including capacitive [7], resistive [8], piezoelectric [9], optical [10], magnetic [11], visionbased [12,13], etc. The tactile sensors based on capacitive, resistive, and piezoelectric were generally combined in array to expand the sensing area; the pitch of the taxel (tactile pixel) limits the spatial resolution of such tactile sensors. The miniaturization of sensing unit could improve resolution, this means complex manufacturing and wiring. Visionbased tactile sensors, such as GelSight [12] and DIGIT [13], can achieve high resolution; this brings higher cost and limits of installation space due to the use of cameras

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