Hyunkyu Park scite author profile

Hyunkyu Park

2Publications

21Citation Statements Received

55Citation Statements Given

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Korea Advanced Institute of Science and Technology

Publications

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Predicting the Force Map of an ERT-Based Tactile Sensor Using Simulation and Deep Networks

Lee

Sun

Park

et al. 2023

IEEE Trans. Automat. Sci. Eng.

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Electrical resistance tomography (ERT) can be used to create large-scale soft tactile sensors that are flexible and robust. Good performance requires a fast and accurate mapping from the sensor's sequential voltage measurements to the distribution of force across its surface. However, particularly with multiple contacts, this task is challenging for both previously developed approaches: physics-based modeling and end-to-end data-driven learning. Some promising results were recently achieved using sim-to-real transfer learning, but estimating multiple contact locations and accurate contact forces remains difficult because simulations tend to be less accurate with a high number of contact locations and/or high force. This paper introduces a modular hybrid method that combines simulation data synthesized from an electromechanical finite element model with real measurements collected from a new ERT-based tactile sensor. We use about 290 000 simulated and 90 000 real measurements to train two deep neural networks: the first (Transfer-Net) captures the inevitable gap between simulation and reality, and the second (Recon-Net) reconstructs contact forces from voltage measurements. The number of contacts, contact locations, force magnitudes, and contact diameters are evaluated for a manually collected multi-contact dataset of 150 measurements. Our modular pipeline's results outperform predictions by both a physics-based model and end-to-end learning. Note to Practitioners-ERT-based tactile sensors use highspeed voltage measurements from electrodes distributed over a piezoresistive area to output a force map that shows where contact is occurring, and how strong each contact is. Such sensors Manuscript

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Compact Flat Fabric Pneumatic Artificial Muscle (ffPAM) for Soft Wearable Robotic Devices

Kim

Park

Kim

2021

IEEE Robot. Autom. Lett.

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Hyunkyu Park

Predicting the Force Map of an ERT-Based Tactile Sensor Using Simulation and Deep Networks

Compact Flat Fabric Pneumatic Artificial Muscle (ffPAM) for Soft Wearable Robotic Devices

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