Three-Finger Grasping Optimization for Push-Button Objects

Mengmeng Li; Changhuang Wan; Jiaxun Wei; Zhixi Shen; Gangshan Jing

doi:10.1109/ICAISISAS64483.2025.11051580

Three-Finger Grasping Optimization for Push-Button Objects

Mengmeng Li, Changhuang Wan, Jiaxun Wei, Zhixi Shen, Gangshan Jing

Department of Mechanical Engineering

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

Abstract

Grasping problems have been commonly encountered in practical robotic applications. Existing researches usually focus on seeking optimal grasp points such that a rigid object can be kept in hand without falling down. Such methods may fail when the object is deformable and needs to be further manipulated while being grasped. This paper focuses on three-finger grasp planning for push-button type objects. The main challenge is that the grasp needs to keep stable during the deformation of the manipulated object. By analyzing the mass distribution variation during the manipulation, we establish an optimization problem for inducing a resilient grasp that can adapt to the push-button object grasping and manipulation scenario. The experiments show that an optimal grasp for a pure rigid object grasp problem may fail to maintain a stable grasp when the push-button object is manipulated, while the grasp provided by our method is always resilient to the manipulation. © 2025 IEEE.

Original language	English
Title of host publication	2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS) & International Symposium on Autonomous Systems (ISAS)
Publisher	IEEE
Number of pages	8
ISBN (Electronic)	979-8-3315-4470-6
ISBN (Print)	979-8-3315-4471-3
DOIs	https://doi.org/10.1109/ICAISISAS64483.2025.11051580
Publication status	Published - 2025
Event	2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS 2025) and International Symposium on Autonomous Systems (ISAS 2025) - Xi'an, China Duration: 23 May 2025 → 25 May 2025

Publication series

Name	Joint International Conference on Automation-Intelligence-Safety, ICAIS and International Symposium on Autonomous Systems, ISAS
ISSN (Print)	2996-3842
ISSN (Electronic)	2996-3850

Conference

Conference	2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS 2025) and International Symposium on Autonomous Systems (ISAS 2025)
Place	China
City	Xi'an
Period	23/05/25 → 25/05/25

Funding

This work was supported in part by the National Key Research and Development Program of China under Grant 2022YFB4701400, in part by the National Natural Science Foundation of China under grant (62203073), in part by Project No.2024CDJCGJ-003 supported by the Fundamental Research Funds for the Central Universities and the Natural Science Foundation of Chongqing under Grant (CSTB2022NSCQ-MSX0577).

Research Keywords

deformable object
grasp planing
Three-finger

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10.1109/ICAISISAS64483.2025.11051580

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Li, M., Wan, C., Wei, J., Shen, Z., & Jing, G. (2025). Three-Finger Grasping Optimization for Push-Button Objects. In 2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS) & International Symposium on Autonomous Systems (ISAS) (Joint International Conference on Automation-Intelligence-Safety, ICAIS and International Symposium on Autonomous Systems, ISAS). IEEE. https://doi.org/10.1109/ICAISISAS64483.2025.11051580

Li, Mengmeng ; Wan, Changhuang ; Wei, Jiaxun et al. / Three-Finger Grasping Optimization for Push-Button Objects. 2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS) & International Symposium on Autonomous Systems (ISAS). IEEE, 2025. (Joint International Conference on Automation-Intelligence-Safety, ICAIS and International Symposium on Autonomous Systems, ISAS).

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title = "Three-Finger Grasping Optimization for Push-Button Objects",

abstract = "Grasping problems have been commonly encountered in practical robotic applications. Existing researches usually focus on seeking optimal grasp points such that a rigid object can be kept in hand without falling down. Such methods may fail when the object is deformable and needs to be further manipulated while being grasped. This paper focuses on three-finger grasp planning for push-button type objects. The main challenge is that the grasp needs to keep stable during the deformation of the manipulated object. By analyzing the mass distribution variation during the manipulation, we establish an optimization problem for inducing a resilient grasp that can adapt to the push-button object grasping and manipulation scenario. The experiments show that an optimal grasp for a pure rigid object grasp problem may fail to maintain a stable grasp when the push-button object is manipulated, while the grasp provided by our method is always resilient to the manipulation. {\textcopyright} 2025 IEEE.",

keywords = "deformable object, grasp planing, Three-finger",

author = "Mengmeng Li and Changhuang Wan and Jiaxun Wei and Zhixi Shen and Gangshan Jing",

year = "2025",

doi = "10.1109/ICAISISAS64483.2025.11051580",

language = "English",

isbn = "979-8-3315-4471-3",

series = "Joint International Conference on Automation-Intelligence-Safety, ICAIS and International Symposium on Autonomous Systems, ISAS",

publisher = "IEEE",

booktitle = "2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS) & International Symposium on Autonomous Systems (ISAS)",

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note = "2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS 2025) and International Symposium on Autonomous Systems (ISAS 2025) ; Conference date: 23-05-2025 Through 25-05-2025",

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Li, M, Wan, C, Wei, J, Shen, Z & Jing, G 2025, Three-Finger Grasping Optimization for Push-Button Objects. in 2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS) & International Symposium on Autonomous Systems (ISAS). Joint International Conference on Automation-Intelligence-Safety, ICAIS and International Symposium on Autonomous Systems, ISAS, IEEE, 2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS 2025) and International Symposium on Autonomous Systems (ISAS 2025), Xi'an, China, 23/05/25. https://doi.org/10.1109/ICAISISAS64483.2025.11051580

Three-Finger Grasping Optimization for Push-Button Objects. / Li, Mengmeng; Wan, Changhuang; Wei, Jiaxun et al.
2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS) & International Symposium on Autonomous Systems (ISAS). IEEE, 2025. (Joint International Conference on Automation-Intelligence-Safety, ICAIS and International Symposium on Autonomous Systems, ISAS).

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

TY - GEN

T1 - Three-Finger Grasping Optimization for Push-Button Objects

AU - Li, Mengmeng

AU - Wan, Changhuang

AU - Wei, Jiaxun

AU - Shen, Zhixi

AU - Jing, Gangshan

PY - 2025

Y1 - 2025

N2 - Grasping problems have been commonly encountered in practical robotic applications. Existing researches usually focus on seeking optimal grasp points such that a rigid object can be kept in hand without falling down. Such methods may fail when the object is deformable and needs to be further manipulated while being grasped. This paper focuses on three-finger grasp planning for push-button type objects. The main challenge is that the grasp needs to keep stable during the deformation of the manipulated object. By analyzing the mass distribution variation during the manipulation, we establish an optimization problem for inducing a resilient grasp that can adapt to the push-button object grasping and manipulation scenario. The experiments show that an optimal grasp for a pure rigid object grasp problem may fail to maintain a stable grasp when the push-button object is manipulated, while the grasp provided by our method is always resilient to the manipulation. © 2025 IEEE.

AB - Grasping problems have been commonly encountered in practical robotic applications. Existing researches usually focus on seeking optimal grasp points such that a rigid object can be kept in hand without falling down. Such methods may fail when the object is deformable and needs to be further manipulated while being grasped. This paper focuses on three-finger grasp planning for push-button type objects. The main challenge is that the grasp needs to keep stable during the deformation of the manipulated object. By analyzing the mass distribution variation during the manipulation, we establish an optimization problem for inducing a resilient grasp that can adapt to the push-button object grasping and manipulation scenario. The experiments show that an optimal grasp for a pure rigid object grasp problem may fail to maintain a stable grasp when the push-button object is manipulated, while the grasp provided by our method is always resilient to the manipulation. © 2025 IEEE.

KW - deformable object

KW - grasp planing

KW - Three-finger

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U2 - 10.1109/ICAISISAS64483.2025.11051580

DO - 10.1109/ICAISISAS64483.2025.11051580

M3 - RGC 32 - Refereed conference paper (with host publication)

SN - 979-8-3315-4471-3

T3 - Joint International Conference on Automation-Intelligence-Safety, ICAIS and International Symposium on Autonomous Systems, ISAS

BT - 2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS) & International Symposium on Autonomous Systems (ISAS)

PB - IEEE

T2 - 2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS 2025) and International Symposium on Autonomous Systems (ISAS 2025)

Y2 - 23 May 2025 through 25 May 2025

ER -

Li M, Wan C, Wei J, Shen Z, Jing G. Three-Finger Grasping Optimization for Push-Button Objects. In 2025 Joint International Conference on Automation-Intelligence-Safety (ICAIS) & International Symposium on Autonomous Systems (ISAS). IEEE. 2025. (Joint International Conference on Automation-Intelligence-Safety, ICAIS and International Symposium on Autonomous Systems, ISAS). Epub 2025 Jul 3. doi: 10.1109/ICAISISAS64483.2025.11051580

Three-Finger Grasping Optimization for Push-Button Objects

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