Johannes Mersch, Alexander Nikolas Hofer, Marco Da Silva,
"Exploration of Electrical Impedance Tomography and Grid-Based Soft Sensors for Distributed, Large Deformation Strain Sensing Based on a Fiber-Elastomer Composite"
, in IEEE, in IEEE Sensors Letters, Vol. 8, Nummer 5, 4-2024
Original Titel:
Exploration of Electrical Impedance Tomography and Grid-Based Soft Sensors for Distributed, Large Deformation Strain Sensing Based on a Fiber-Elastomer Composite
Sprache des Titels:
Englisch
Original Kurzfassung:
This letter presents a comparative analysis between two setups utilizing carbon black-filled elastomer with conductive textile electrodes: Electrical Impedance Tomography (EIT) and a grid-based configuration. Both setups represent cutting-edge approaches in the field of stretchable sensor technology. Both enable the estimation of stretch displacements, surface normal forces, and multi-point contact locations, exhibiting robustness across diverse contact conditions. So far both approaches have only been employed for flexible and soft but not stretchable force or touch sensors as well as with rigid metal electrodes. The presented sensors leverage the softness and flexibility of textiles and elastomers and their drastically different conductivities. This letter aims to provide insights into the comparative strengths and limitations of EIT and grid-based fully stretchable strain sensors.