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Hauptverfasser: Nie, Yiding, Fan, Dongliang, Huang, Jiatai, Liu, Chunyu, Dai, Jian S.
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2512.20888
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author Nie, Yiding
Fan, Dongliang
Huang, Jiatai
Liu, Chunyu
Dai, Jian S.
author_facet Nie, Yiding
Fan, Dongliang
Huang, Jiatai
Liu, Chunyu
Dai, Jian S.
contents Stretchable sensors indicate promising prospects for soft robotics, medical devices, and human-machine interactions due to the high compliance of soft materials. Discrete sensing strategies, including sensor arrays and distributed sensors, are broadly involved in tactile sensors across versatile applications. However, it remains a challenge to achieve high spatial resolution with self-decoupled capacity and insensitivity to other off-axis stimuli for stretchable tactile sensors. Herein, we develop a stretchable tactile sensor based on the proposed continuous spectral-filtering principle, allowing superhigh resolution for applied stimuli. This proposed sensor enables a high-linear spatial response (0.996) even during stretching and bending, and high continuous spatial (7 μm) and force (5 mN) resolutions with design scalability and interaction robustness to survive piercing and cutting. We further demonstrate the sensors' performance by integrating them into a planar parallel mechanism for precise trajectory tracking (rotational resolution: 0.02°) in real time.
format Preprint
id arxiv_https___arxiv_org_abs_2512_20888
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Stretchable and High-Precision Optical Tactile Sensor for Trajectory Tracking of Parallel Mechanisms
Nie, Yiding
Fan, Dongliang
Huang, Jiatai
Liu, Chunyu
Dai, Jian S.
Robotics
Stretchable sensors indicate promising prospects for soft robotics, medical devices, and human-machine interactions due to the high compliance of soft materials. Discrete sensing strategies, including sensor arrays and distributed sensors, are broadly involved in tactile sensors across versatile applications. However, it remains a challenge to achieve high spatial resolution with self-decoupled capacity and insensitivity to other off-axis stimuli for stretchable tactile sensors. Herein, we develop a stretchable tactile sensor based on the proposed continuous spectral-filtering principle, allowing superhigh resolution for applied stimuli. This proposed sensor enables a high-linear spatial response (0.996) even during stretching and bending, and high continuous spatial (7 μm) and force (5 mN) resolutions with design scalability and interaction robustness to survive piercing and cutting. We further demonstrate the sensors' performance by integrating them into a planar parallel mechanism for precise trajectory tracking (rotational resolution: 0.02°) in real time.
title Stretchable and High-Precision Optical Tactile Sensor for Trajectory Tracking of Parallel Mechanisms
topic Robotics
url https://arxiv.org/abs/2512.20888