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Analysis of electrical resistance tomography measurements for fast force localization

Sabrina Affortunati, Bernhard G. Zagar

Year
2024
Citations
2
Access
Open access

Abstract

Abstract Safe human-robot collaboration requires the robot to monitor the location and intensity of a potential contact force. This is necessary to avoid a possible risk of injury to humans. The goal of this work is to develop a distributed sensor system that enables spatially resolved force measurement. By covering the entire robot’s surface with an elastic coating with a sufficiently pressure-dependent conductivity, electrical resistance tomography can be used for this purpose. The measurement of the transimpedance makes it possible to localize a force applied between the electrodes and thus increase the spatial resolution of the measuring system. By analyzing the obtained measurements, a fast method, compared to classical electrical resistance tomography, for force localization is proposed. This method is compared to the classical method of electrical resistance tomography. A reduction in the processing time to less than one tenth has been attained with the presented method for the case of force localization only.

Keywords

Electrical resistance and conductanceTomographyRobotElectrical resistivity tomographyComputer scienceElectrical resistivity and conductivityReduction (mathematics)Biomedical engineeringAcousticsMaterials science

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