Control system for DLR/HIT II dexterous robot hand and synchronized control for base joint

Tian Lan; Yi Wei Liu; Ming He Jin; Li Jiang; Shao Wei Fan; Hong Liu

Control system for DLR/HIT II dexterous robot hand and synchronized control for base joint

Tian Lan^*, Yi Wei Liu, Ming He Jin, Li Jiang, Shao Wei Fan, Hong Liu

^*Corresponding author for this work

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

6 Citations (Scopus)

Abstract

A DSP & FPGA-based multilevel control system was developed for multi-sensory and multi-DOF dexterous robot hand, in which the drive, control and sensor systems were integrated in the finger. So the five-finger DLR/HIT II dexterous robot hand that resembled the human hand regarding size and movability was realized. A synchronized cross-coupled controller for base joint of dexterous robot hand was designed, including feedforwards of velocity and acceleration, feedbacks of synchronous errors and position errors, and a smooth robust nonlinear feedback compensator. The controller did not require the explicit use of the system dynamic model. Compared with conventional non-synchronized PD friction compensation and trajectory tracking control, experimental results demonstrate the validity of the designed control system and synchronized cross-coupled controller.

Original language	English
Pages (from-to)	608-614
Number of pages	7
Journal	Dianji yu Kongzhi Xuebao/Electric Machines and Control
Volume	13
Issue number	4
Publication status	Published - Jul 2009
Externally published	Yes

Keywords

Control system
Cross-coupled
Dexterous robot hand
Synchronized control
Trajectory tracking

Cite this

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title = "Control system for DLR/HIT II dexterous robot hand and synchronized control for base joint",

abstract = "A DSP & FPGA-based multilevel control system was developed for multi-sensory and multi-DOF dexterous robot hand, in which the drive, control and sensor systems were integrated in the finger. So the five-finger DLR/HIT II dexterous robot hand that resembled the human hand regarding size and movability was realized. A synchronized cross-coupled controller for base joint of dexterous robot hand was designed, including feedforwards of velocity and acceleration, feedbacks of synchronous errors and position errors, and a smooth robust nonlinear feedback compensator. The controller did not require the explicit use of the system dynamic model. Compared with conventional non-synchronized PD friction compensation and trajectory tracking control, experimental results demonstrate the validity of the designed control system and synchronized cross-coupled controller.",

keywords = "Control system, Cross-coupled, Dexterous robot hand, Synchronized control, Trajectory tracking",

author = "Tian Lan and Liu, {Yi Wei} and Jin, {Ming He} and Li Jiang and Fan, {Shao Wei} and Hong Liu",

year = "2009",

month = jul,

language = "English",

volume = "13",

pages = "608--614",

journal = "Dianji yu Kongzhi Xuebao/Electric Machines and Control",

issn = "1007-449X",

publisher = "Harbin University of Science and Technology, Editorial department of Electric Machines and Control",

number = "4",

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TY - JOUR

T1 - Control system for DLR/HIT II dexterous robot hand and synchronized control for base joint

AU - Lan, Tian

AU - Liu, Yi Wei

AU - Jin, Ming He

AU - Jiang, Li

AU - Fan, Shao Wei

AU - Liu, Hong

PY - 2009/7

Y1 - 2009/7

N2 - A DSP & FPGA-based multilevel control system was developed for multi-sensory and multi-DOF dexterous robot hand, in which the drive, control and sensor systems were integrated in the finger. So the five-finger DLR/HIT II dexterous robot hand that resembled the human hand regarding size and movability was realized. A synchronized cross-coupled controller for base joint of dexterous robot hand was designed, including feedforwards of velocity and acceleration, feedbacks of synchronous errors and position errors, and a smooth robust nonlinear feedback compensator. The controller did not require the explicit use of the system dynamic model. Compared with conventional non-synchronized PD friction compensation and trajectory tracking control, experimental results demonstrate the validity of the designed control system and synchronized cross-coupled controller.

AB - A DSP & FPGA-based multilevel control system was developed for multi-sensory and multi-DOF dexterous robot hand, in which the drive, control and sensor systems were integrated in the finger. So the five-finger DLR/HIT II dexterous robot hand that resembled the human hand regarding size and movability was realized. A synchronized cross-coupled controller for base joint of dexterous robot hand was designed, including feedforwards of velocity and acceleration, feedbacks of synchronous errors and position errors, and a smooth robust nonlinear feedback compensator. The controller did not require the explicit use of the system dynamic model. Compared with conventional non-synchronized PD friction compensation and trajectory tracking control, experimental results demonstrate the validity of the designed control system and synchronized cross-coupled controller.

KW - Control system

KW - Cross-coupled

KW - Dexterous robot hand

KW - Synchronized control

KW - Trajectory tracking

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M3 - Article

AN - SCOPUS:68549104143

SN - 1007-449X

VL - 13

SP - 608

EP - 614

JO - Dianji yu Kongzhi Xuebao/Electric Machines and Control

JF - Dianji yu Kongzhi Xuebao/Electric Machines and Control

IS - 4

ER -

Control system for DLR/HIT II dexterous robot hand and synchronized control for base joint

Abstract

Keywords

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