DSP & FPGA-based control architecture for a highly integrated robot hand with enhanced impedance performance

Ke Wu; Tian Lan; Yangbin Chen; Yiwei Liu; Minghe Jin; Shaowei Fan; Zhaopeng Chen; Hong Liu

doi:10.3772/j.issn.1006-6748.2010.02.012

DSP & FPGA-based control architecture for a highly integrated robot hand with enhanced impedance performance

Ke Wu^*, Tian Lan, Yangbin Chen, Yiwei Liu, Minghe Jin, Shaowei Fan, Zhaopeng Chen, Hong Liu

^*Corresponding author for this work

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

1 Citation (Scopus)

Abstract

A novel control system is developed to improve the capabilities of robot hand perfonning tasks in a variety of environments. A joint impedance control strategy has been successfully implemented in the low level control of a highly integrated robot hand. At first, a real time controller with DSP&FPGA-based multilevel control architecture is built. Then a current sensor of the single direct current (DC) link is used to measure and reconstruct the three phase currents, and a stable current signal is measured by optimizing sample instant. The experimental results of the joint impedance control show that the proposed method not only improves the effectiveness of contact environment performance, but also provides compliant interaction of robot hand with a person, which is very important for the development of friendly human robot of the next generation.

Original language	English
Pages (from-to)	178-183
Number of pages	6
Journal	High Technology Letters
Volume	16
Issue number	2
DOIs	https://doi.org/10.3772/j.issn.1006-6748.2010.02.012
Publication status	Published - Jun 2010
Externally published	Yes

Keywords

Control system
Current sensor
DSP & FPGA
Direct current (DC) link
Impedance control
Robot hand

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10.3772/j.issn.1006-6748.2010.02.012

Cite this

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abstract = "A novel control system is developed to improve the capabilities of robot hand perfonning tasks in a variety of environments. A joint impedance control strategy has been successfully implemented in the low level control of a highly integrated robot hand. At first, a real time controller with DSP&FPGA-based multilevel control architecture is built. Then a current sensor of the single direct current (DC) link is used to measure and reconstruct the three phase currents, and a stable current signal is measured by optimizing sample instant. The experimental results of the joint impedance control show that the proposed method not only improves the effectiveness of contact environment performance, but also provides compliant interaction of robot hand with a person, which is very important for the development of friendly human robot of the next generation.",

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author = "Ke Wu and Tian Lan and Yangbin Chen and Yiwei Liu and Minghe Jin and Shaowei Fan and Zhaopeng Chen and Hong Liu",

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T1 - DSP & FPGA-based control architecture for a highly integrated robot hand with enhanced impedance performance

AU - Wu, Ke

AU - Lan, Tian

AU - Chen, Yangbin

AU - Liu, Yiwei

AU - Jin, Minghe

AU - Fan, Shaowei

AU - Chen, Zhaopeng

AU - Liu, Hong

PY - 2010/6

Y1 - 2010/6

N2 - A novel control system is developed to improve the capabilities of robot hand perfonning tasks in a variety of environments. A joint impedance control strategy has been successfully implemented in the low level control of a highly integrated robot hand. At first, a real time controller with DSP&FPGA-based multilevel control architecture is built. Then a current sensor of the single direct current (DC) link is used to measure and reconstruct the three phase currents, and a stable current signal is measured by optimizing sample instant. The experimental results of the joint impedance control show that the proposed method not only improves the effectiveness of contact environment performance, but also provides compliant interaction of robot hand with a person, which is very important for the development of friendly human robot of the next generation.

AB - A novel control system is developed to improve the capabilities of robot hand perfonning tasks in a variety of environments. A joint impedance control strategy has been successfully implemented in the low level control of a highly integrated robot hand. At first, a real time controller with DSP&FPGA-based multilevel control architecture is built. Then a current sensor of the single direct current (DC) link is used to measure and reconstruct the three phase currents, and a stable current signal is measured by optimizing sample instant. The experimental results of the joint impedance control show that the proposed method not only improves the effectiveness of contact environment performance, but also provides compliant interaction of robot hand with a person, which is very important for the development of friendly human robot of the next generation.

KW - Control system

KW - Current sensor

KW - DSP & FPGA

KW - Direct current (DC) link

KW - Impedance control

KW - Robot hand

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DSP & FPGA-based control architecture for a highly integrated robot hand with enhanced impedance performance

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Keywords

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