3SPS-1S parallel mechanism based humanoid manipulator system

Lei Hu; Ning Hu; Liquan Wang; Changsheng Li; Yang Li; Bei Sun; Feng Xie; Huiyong Yu

doi:10.11990/jheu.201407041

3SPS-1S parallel mechanism based humanoid manipulator system

Lei Hu, Ning Hu, Liquan Wang^*, Changsheng Li, Yang Li, Bei Sun, Feng Xie, Huiyong Yu

^*Corresponding author for this work

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

1 Citation (Scopus)

Abstract

Traditional humanoid manipulators are generally large in size and have low stiffness. To compensate for these shortcomings, a 3SPS-1S parallel mechanism was designed, with spherical movements with three degrees of freedom. A model was established and kinematic analysis was conducted for this parallel mechanism. A humanoid arm platform was built on the basis of a series-parallel configuration. Furthermore, a motor-hydraulic combined drive system was developed to reduce the size and enhance the performance. A set of DC servo control systems was designed based on a hybrid PID control algorithm, which improved the response speed and control precision of the system. This humanoid arm is proven to have good flexibility through experiments, and the flexibility matches the movement of human arms.

Original language	English
Pages (from-to)	1515-1521 and 1531
Journal	Harbin Gongcheng Daxue Xuebao/Journal of Harbin Engineering University
Volume	36
Issue number	11
DOIs	https://doi.org/10.11990/jheu.201407041
Publication status	Published - 25 Nov 2015
Externally published	Yes

Keywords

Humanoid manipulator
Hybrid PID algorithm
Motor-hydraulic combined drive
Parallel mechanism
Serial-parallel mechanism

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10.11990/jheu.201407041

Cite this

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title = "3SPS-1S parallel mechanism based humanoid manipulator system",

abstract = "Traditional humanoid manipulators are generally large in size and have low stiffness. To compensate for these shortcomings, a 3SPS-1S parallel mechanism was designed, with spherical movements with three degrees of freedom. A model was established and kinematic analysis was conducted for this parallel mechanism. A humanoid arm platform was built on the basis of a series-parallel configuration. Furthermore, a motor-hydraulic combined drive system was developed to reduce the size and enhance the performance. A set of DC servo control systems was designed based on a hybrid PID control algorithm, which improved the response speed and control precision of the system. This humanoid arm is proven to have good flexibility through experiments, and the flexibility matches the movement of human arms.",

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AU - Hu, Lei

AU - Hu, Ning

AU - Wang, Liquan

AU - Li, Changsheng

AU - Li, Yang

AU - Sun, Bei

AU - Xie, Feng

AU - Yu, Huiyong

PY - 2015/11/25

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N2 - Traditional humanoid manipulators are generally large in size and have low stiffness. To compensate for these shortcomings, a 3SPS-1S parallel mechanism was designed, with spherical movements with three degrees of freedom. A model was established and kinematic analysis was conducted for this parallel mechanism. A humanoid arm platform was built on the basis of a series-parallel configuration. Furthermore, a motor-hydraulic combined drive system was developed to reduce the size and enhance the performance. A set of DC servo control systems was designed based on a hybrid PID control algorithm, which improved the response speed and control precision of the system. This humanoid arm is proven to have good flexibility through experiments, and the flexibility matches the movement of human arms.

AB - Traditional humanoid manipulators are generally large in size and have low stiffness. To compensate for these shortcomings, a 3SPS-1S parallel mechanism was designed, with spherical movements with three degrees of freedom. A model was established and kinematic analysis was conducted for this parallel mechanism. A humanoid arm platform was built on the basis of a series-parallel configuration. Furthermore, a motor-hydraulic combined drive system was developed to reduce the size and enhance the performance. A set of DC servo control systems was designed based on a hybrid PID control algorithm, which improved the response speed and control precision of the system. This humanoid arm is proven to have good flexibility through experiments, and the flexibility matches the movement of human arms.

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KW - Hybrid PID algorithm

KW - Motor-hydraulic combined drive

KW - Parallel mechanism

KW - Serial-parallel mechanism

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3SPS-1S parallel mechanism based humanoid manipulator system

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Keywords

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