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Main Authors: Hasanen, Basma, Mohsan, Mashood M., Alkayas, Abdulaziz Y., Renda, Federico, Hussain, Irfan
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.06806
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author Hasanen, Basma
Mohsan, Mashood M.
Alkayas, Abdulaziz Y.
Renda, Federico
Hussain, Irfan
author_facet Hasanen, Basma
Mohsan, Mashood M.
Alkayas, Abdulaziz Y.
Renda, Federico
Hussain, Irfan
contents The presence of post-stroke grasping deficiencies highlights the critical need for the development and implementation of advanced compensatory strategies. This paper introduces a novel system to aid chronic stroke survivors through the development of a soft, vision-based, tactile-enabled extra robotic finger. By incorporating vision-based tactile sensing, the system autonomously adjusts grip force in response to slippage detection. This synergy not only ensures mechanical stability but also enriches tactile feedback, mimicking the dynamics of human-object interactions. At the core of our approach is a transformer-based framework trained on a comprehensive tactile dataset encompassing objects with a wide range of morphological properties, including variations in shape, size, weight, texture, and hardness. Furthermore, we validated the system's robustness in real-world applications, where it successfully manipulated various everyday objects. The promising results highlight the potential of this approach to improve the quality of life for stroke survivors.
format Preprint
id arxiv_https___arxiv_org_abs_2501_06806
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Soft Vision-Based Tactile-Enabled SixthFinger: Advancing Daily Objects Manipulation for Stroke Survivors
Hasanen, Basma
Mohsan, Mashood M.
Alkayas, Abdulaziz Y.
Renda, Federico
Hussain, Irfan
Robotics
The presence of post-stroke grasping deficiencies highlights the critical need for the development and implementation of advanced compensatory strategies. This paper introduces a novel system to aid chronic stroke survivors through the development of a soft, vision-based, tactile-enabled extra robotic finger. By incorporating vision-based tactile sensing, the system autonomously adjusts grip force in response to slippage detection. This synergy not only ensures mechanical stability but also enriches tactile feedback, mimicking the dynamics of human-object interactions. At the core of our approach is a transformer-based framework trained on a comprehensive tactile dataset encompassing objects with a wide range of morphological properties, including variations in shape, size, weight, texture, and hardness. Furthermore, we validated the system's robustness in real-world applications, where it successfully manipulated various everyday objects. The promising results highlight the potential of this approach to improve the quality of life for stroke survivors.
title Soft Vision-Based Tactile-Enabled SixthFinger: Advancing Daily Objects Manipulation for Stroke Survivors
topic Robotics
url https://arxiv.org/abs/2501.06806