TY - GEN
T1 - Soft Vision-Based Tactile-Enabled SixthFinger
T2 - 8th IEEE International Conference on Soft Robotics, RoboSoft 2025
AU - Hasanen, Basma
AU - Mohsan, Mashood M.
AU - Alkayas, Abdulaziz Y.
AU - Renda, Federico
AU - Hussain, Irfan
N1 - Publisher Copyright:
© 2025 IEEE.
PY - 2025
Y1 - 2025
N2 - 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.
AB - 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.
KW - Assistive Technologies
KW - Supernumerary Robotic Finger
KW - Tactile Sensing
KW - Transformers
KW - Wearable Robots
UR - https://www.scopus.com/pages/publications/105008417288
U2 - 10.1109/RoboSoft63089.2025.11020866
DO - 10.1109/RoboSoft63089.2025.11020866
M3 - Conference contribution
AN - SCOPUS:105008417288
T3 - 2025 IEEE 8th International Conference on Soft Robotics, RoboSoft 2025
BT - 2025 IEEE 8th International Conference on Soft Robotics, RoboSoft 2025
PB - Institute of Electrical and Electronics Engineers Inc.
Y2 - 22 April 2025 through 26 April 2025
ER -
