Dynamic Self-Righting of Planar-Based Objects on Dual Supports and its Implications for Robotic Object Placement

Seunghwa Oh; Woosung Lim; Joonyoung Kim; Taewoong Kang; Seung Joon Yi; Jungwon Seo

doi:10.1109/LRA.2025.3598992

Dynamic Self-Righting of Planar-Based Objects on Dual Supports and its Implications for Robotic Object Placement

Seunghwa Oh, Woosung Lim, Joonyoung Kim, Taewoong Kang, Seung Joon Yi, Jungwon Seo^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal Article › peer-review

1 Citation (Scopus)

Abstract

This study investigates the dynamic self-righting behavior of planar-based rigid objects supported at two contact points under the influence of gravity. The underlying mechanism of self-righting is elucidated through a six-dimensional curvature analysis in the configuration space. In addition, we discuss the robustness of the resulting stability properties and introduce a simulation approach to model their emergence. This stability theory is then applied to a common robotic manipulation scenario: palm-to-surface transfers, in which a robot places objects resting on its palm onto an external surface. A series of experiments validate the effectiveness of the self-righting-induced dynamic stability in performing these manipulation tasks.

Original language	English
Pages (from-to)	10194-10201
Number of pages	8
Journal	IEEE Robotics and Automation Letters
Volume	10
Issue number	10
DOIs	https://doi.org/10.1109/LRA.2025.3598992
Publication status	Published - 2025
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2016 IEEE.

Keywords

Dynamics
contact modeling
dexterous manipulation
kinematics

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10.1109/LRA.2025.3598992

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title = "Dynamic Self-Righting of Planar-Based Objects on Dual Supports and its Implications for Robotic Object Placement",

abstract = "This study investigates the dynamic self-righting behavior of planar-based rigid objects supported at two contact points under the influence of gravity. The underlying mechanism of self-righting is elucidated through a six-dimensional curvature analysis in the configuration space. In addition, we discuss the robustness of the resulting stability properties and introduce a simulation approach to model their emergence. This stability theory is then applied to a common robotic manipulation scenario: palm-to-surface transfers, in which a robot places objects resting on its palm onto an external surface. A series of experiments validate the effectiveness of the self-righting-induced dynamic stability in performing these manipulation tasks.",

keywords = "Dynamics, contact modeling, dexterous manipulation, kinematics",

author = "Seunghwa Oh and Woosung Lim and Joonyoung Kim and Taewoong Kang and Yi, \{Seung Joon\} and Jungwon Seo",

note = "Publisher Copyright: {\textcopyright} 2016 IEEE.",

year = "2025",

doi = "10.1109/LRA.2025.3598992",

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T1 - Dynamic Self-Righting of Planar-Based Objects on Dual Supports and its Implications for Robotic Object Placement

AU - Oh, Seunghwa

AU - Lim, Woosung

AU - Kim, Joonyoung

AU - Kang, Taewoong

AU - Yi, Seung Joon

AU - Seo, Jungwon

PY - 2025

Y1 - 2025

N2 - This study investigates the dynamic self-righting behavior of planar-based rigid objects supported at two contact points under the influence of gravity. The underlying mechanism of self-righting is elucidated through a six-dimensional curvature analysis in the configuration space. In addition, we discuss the robustness of the resulting stability properties and introduce a simulation approach to model their emergence. This stability theory is then applied to a common robotic manipulation scenario: palm-to-surface transfers, in which a robot places objects resting on its palm onto an external surface. A series of experiments validate the effectiveness of the self-righting-induced dynamic stability in performing these manipulation tasks.

AB - This study investigates the dynamic self-righting behavior of planar-based rigid objects supported at two contact points under the influence of gravity. The underlying mechanism of self-righting is elucidated through a six-dimensional curvature analysis in the configuration space. In addition, we discuss the robustness of the resulting stability properties and introduce a simulation approach to model their emergence. This stability theory is then applied to a common robotic manipulation scenario: palm-to-surface transfers, in which a robot places objects resting on its palm onto an external surface. A series of experiments validate the effectiveness of the self-righting-induced dynamic stability in performing these manipulation tasks.

KW - Dynamics

KW - contact modeling

KW - dexterous manipulation

KW - kinematics

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AN - SCOPUS:105013520665

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JO - IEEE Robotics and Automation Letters

JF - IEEE Robotics and Automation Letters

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ER -

Dynamic Self-Righting of Planar-Based Objects on Dual Supports and its Implications for Robotic Object Placement

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Keywords

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