TY - GEN
T1 - Tendon to Object Space
T2 - 16th International Workshop on Human-Friendly Robotics, HFR 2023
AU - Li, Junnan
AU - Ganguly, Amartya
AU - Figueredo, Luis F.C.
AU - Haddadin, Sami
N1 - Publisher Copyright:
© The Author(s), under exclusive license to Springer Nature Switzerland AG 2024.
PY - 2024
Y1 - 2024
N2 - This investigation tackles the issue of assessing performance by comparing the mechanical outputs to capabilities achieved by human fingers in terms of dexterity and versatility. Unlike previous designs which are limited in their performance, our novel mathematical formulation bridges the gap between the mechanical attributes of anthropomorphic tendon-driven fingers and the dexterity of human fingers. Our formulation translates the mechanical output from the tendon space to the object space. In order to evaluate the performance of an anthropomorphic tendon-driven robotic finger, we measured fingertip forces as reference for human-level performance. The data was then used to formulate performance metrics for the robotic fingers. By comparing the recorded forces with that of the simulated mechanical output of the robotic fingers with different tendon routing designs, we can qualitatively gauge the performance and versatility of the robotic fingers for various grasping and manipulation tasks. Our mathematical formulation thus provides a different perspective, enabling a comprehensive assessment of the performance of tendon-driven robotic fingers in terms of dexterity as well as versatility.
AB - This investigation tackles the issue of assessing performance by comparing the mechanical outputs to capabilities achieved by human fingers in terms of dexterity and versatility. Unlike previous designs which are limited in their performance, our novel mathematical formulation bridges the gap between the mechanical attributes of anthropomorphic tendon-driven fingers and the dexterity of human fingers. Our formulation translates the mechanical output from the tendon space to the object space. In order to evaluate the performance of an anthropomorphic tendon-driven robotic finger, we measured fingertip forces as reference for human-level performance. The data was then used to formulate performance metrics for the robotic fingers. By comparing the recorded forces with that of the simulated mechanical output of the robotic fingers with different tendon routing designs, we can qualitatively gauge the performance and versatility of the robotic fingers for various grasping and manipulation tasks. Our mathematical formulation thus provides a different perspective, enabling a comprehensive assessment of the performance of tendon-driven robotic fingers in terms of dexterity as well as versatility.
UR - http://www.scopus.com/inward/record.url?scp=85188706539&partnerID=8YFLogxK
U2 - 10.1007/978-3-031-55000-3_14
DO - 10.1007/978-3-031-55000-3_14
M3 - Conference contribution
AN - SCOPUS:85188706539
SN - 9783031549991
T3 - Springer Proceedings in Advanced Robotics
SP - 196
EP - 212
BT - Human-Friendly Robotics 2023 - HFR
A2 - Piazza, Cristina
A2 - Capsi-Morales, Patricia
A2 - Figueredo, Luis
A2 - Keppler, Manuel
A2 - Schütze, Hinrich
PB - Springer Nature
Y2 - 20 September 2023 through 21 September 2023
ER -