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Shape Sensing of Variable Stiffness Soft Robots using Electrical Impedance Tomography

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arxiv 1904.02429 v2 pith:ZDKRQPPO submitted 2019-04-04 cs.RO

Shape Sensing of Variable Stiffness Soft Robots using Electrical Impedance Tomography

classification cs.RO
keywords softshapeimpedancemeasurementsactuatorelectricalrobotsgreater
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Soft robotic systems offer benefits over traditional rigid systems through reduced contact trauma with soft tissues and by enabling access through tortuous paths in minimally invasive surgery. However, the inherent deformability of soft robots places both a greater onus on accurate modelling of their shape, and greater challenges in realising intraoperative shape sensing. Herein we present a proprioceptive (self-sensing) soft actuator, with an electrically conductive working fluid. Electrical impedance measurements from up to six electrodes enabled tomographic reconstructions using Electrical Impedance Tomography (EIT). A new Frequency Division Multiplexed (FDM) EIT system was developed capable of measurements of 66 dB SNR with 20 ms temporal resolution. The concept was examined in two two-degree-of-freedom designs: a hydraulic hinged actuator and a pneumatic finger actuator with hydraulic beams. Both cases demonstrated that impedance measurements could be used to infer shape changes, and EIT images reconstructed during actuation showed distinct patterns with respect to each degree of freedom (DOF). Whilst there was some mechanical hysteresis observed, the repeatability of the measurements and resultant images was high. The results show the potential of FDM-EIT as a low-cost, low profile shape sensor in soft robots.

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