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Main Authors: Kitouni, Dounia, Chelly, Elie, Khoramshahi, Mahdi, Perdereau, Veronique
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.11545
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author Kitouni, Dounia
Chelly, Elie
Khoramshahi, Mahdi
Perdereau, Veronique
author_facet Kitouni, Dounia
Chelly, Elie
Khoramshahi, Mahdi
Perdereau, Veronique
contents The human hand is an immensely sophisticated tool adept at manipulating and grasping objects of unknown characteristics. Its capability lies in perceiving interaction dynamics through touch and adjusting contact force direction and magnitude to ensure successful manipulation. Despite advancements in control algorithms, sensing technologies, compliance integration, and ongoing research, precise finger force control for dexterous manipulation using tactile sensing remains relatively unexplored.In this work, we explore the challenges related to individual finger contact force control and propose a method for directing such forces perceived through tactile sensing. The proposed method is evaluated using an Allegro hand with Xela tactile sensors. Results are presented and discussed, alongside consideration for potential future improvements.
format Preprint
id arxiv_https___arxiv_org_abs_2406_11545
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Fingertip Contact Force Direction Control using Tactile Feedback
Kitouni, Dounia
Chelly, Elie
Khoramshahi, Mahdi
Perdereau, Veronique
Robotics
The human hand is an immensely sophisticated tool adept at manipulating and grasping objects of unknown characteristics. Its capability lies in perceiving interaction dynamics through touch and adjusting contact force direction and magnitude to ensure successful manipulation. Despite advancements in control algorithms, sensing technologies, compliance integration, and ongoing research, precise finger force control for dexterous manipulation using tactile sensing remains relatively unexplored.In this work, we explore the challenges related to individual finger contact force control and propose a method for directing such forces perceived through tactile sensing. The proposed method is evaluated using an Allegro hand with Xela tactile sensors. Results are presented and discussed, alongside consideration for potential future improvements.
title Fingertip Contact Force Direction Control using Tactile Feedback
topic Robotics
url https://arxiv.org/abs/2406.11545