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Autores principales: Binyamin, Oron, Shapira, Guy, Nahum, Noam, Sintov, Avishai
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2412.14899
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author Binyamin, Oron
Shapira, Guy
Nahum, Noam
Sintov, Avishai
author_facet Binyamin, Oron
Shapira, Guy
Nahum, Noam
Sintov, Avishai
contents Robotic hands offer advanced manipulation capabilities, while their complexity and cost often limit their real-world applications. In contrast, simple parallel grippers, though affordable, are restricted to basic tasks like pick-and-place. Recently, a vibration-based mechanism was proposed to augment parallel grippers and enable in-hand manipulation capabilities for thin objects. By utilizing the stick-slip phenomenon, a simple controller was able to drive a grasped object to a desired position. However, due to the underactuated nature of the mechanism, direct control of the object's orientation was not possible. In this letter, we address the challenge of manipulating the entire state of the object. Hence, we present the excitation of a cyclic phenomenon where the object's center-of-mass rotates in a constant radius about the grasping point. With this cyclic motion, we propose an algorithm for manipulating the object to desired states. In addition to a full analytical analysis of the cyclic phenomenon, we propose the use of duty cycle modulation in operating the vibration actuator to provide more accurate manipulation. Finite element analysis, experiments and task demonstrations validate the proposed algorithm.
format Preprint
id arxiv_https___arxiv_org_abs_2412_14899
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Vibration-based Full State In-Hand Manipulation of Thin Objects
Binyamin, Oron
Shapira, Guy
Nahum, Noam
Sintov, Avishai
Robotics
Robotic hands offer advanced manipulation capabilities, while their complexity and cost often limit their real-world applications. In contrast, simple parallel grippers, though affordable, are restricted to basic tasks like pick-and-place. Recently, a vibration-based mechanism was proposed to augment parallel grippers and enable in-hand manipulation capabilities for thin objects. By utilizing the stick-slip phenomenon, a simple controller was able to drive a grasped object to a desired position. However, due to the underactuated nature of the mechanism, direct control of the object's orientation was not possible. In this letter, we address the challenge of manipulating the entire state of the object. Hence, we present the excitation of a cyclic phenomenon where the object's center-of-mass rotates in a constant radius about the grasping point. With this cyclic motion, we propose an algorithm for manipulating the object to desired states. In addition to a full analytical analysis of the cyclic phenomenon, we propose the use of duty cycle modulation in operating the vibration actuator to provide more accurate manipulation. Finite element analysis, experiments and task demonstrations validate the proposed algorithm.
title Vibration-based Full State In-Hand Manipulation of Thin Objects
topic Robotics
url https://arxiv.org/abs/2412.14899