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arxiv: 2505.11420 · v1 · pith:SDSMYITG · submitted 2025-05-16 · cs.RO

Self-supervised perception for tactile skin covered dexterous hands

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classification cs.RO
keywords tactilehandacrosslearningmagneticsensorssparsh-skincompared
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We present Sparsh-skin, a pre-trained encoder for magnetic skin sensors distributed across the fingertips, phalanges, and palm of a dexterous robot hand. Magnetic tactile skins offer a flexible form factor for hand-wide coverage with fast response times, in contrast to vision-based tactile sensors that are restricted to the fingertips and limited by bandwidth. Full hand tactile perception is crucial for robot dexterity. However, a lack of general-purpose models, challenges with interpreting magnetic flux and calibration have limited the adoption of these sensors. Sparsh-skin, given a history of kinematic and tactile sensing across a hand, outputs a latent tactile embedding that can be used in any downstream task. The encoder is self-supervised via self-distillation on a variety of unlabeled hand-object interactions using an Allegro hand sensorized with Xela uSkin. In experiments across several benchmark tasks, from state estimation to policy learning, we find that pretrained Sparsh-skin representations are both sample efficient in learning downstream tasks and improve task performance by over 41% compared to prior work and over 56% compared to end-to-end learning.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. TactX: Learning Shared Tactile Representations Across Diverse Sensors

    cs.RO 2026-06 unverdicted novelty 6.0

    TactX learns a shared latent representation across three tactile sensor modalities via joint training on paired contacts, enabling zero-shot policy transfer and higher success on pick-and-place, insertion, wiping, and...