Mechanism and control of the novel types of wireless microrobots

Qinxue Pan; Shuxiang Guo

Mechanism and control of the novel types of wireless microrobots

Qinxue Pan^*, Shuxiang Guo

^*Corresponding author for this work

Research output: Contribution to conference › Paper › peer-review

Abstract

This paper reports several prototypes of the magnetically controlled microrobots working in narrow area such as blood vessels for application in microsurgery. The magnetic moving mechanism without the wire for supplying the energy is driven by the alternating magnetic field. In this paper, the experiments of the magnetic mechanisms are carried out in a transparent polyvinylchloride pipe filled with water. And also, the microrobots can move inside of horizontal, vertical and curvature pipe. The motion mechanism and locomotive characteristic of the microrobot have been evaluated. Experimental results indicate that the directional control can be realized with adjusting frequency of the input current. Based on the results, the microrobots have a rapid response, and they can clear out dirt which is adhering to the inner wall of pipe. These microrobots will play an important role in both industrial and medical applications such as microsurgery.

Original language	English
Pages	19-22
Number of pages	4
Publication status	Published - 2008
Externally published	Yes
Event	2nd Joint Student Workshop on Mechatronics, JSWM - Harbin, China Duration: 16 Sept 2008 → 22 Sept 2008

Conference

Conference	2nd Joint Student Workshop on Mechatronics, JSWM
Country/Territory	China
City	Harbin
Period	16/09/08 → 22/09/08

Keywords

Biomedical application
Biomimetic locomotion
External magnetic field
Wireless operation

Cite this

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title = "Mechanism and control of the novel types of wireless microrobots",

abstract = "This paper reports several prototypes of the magnetically controlled microrobots working in narrow area such as blood vessels for application in microsurgery. The magnetic moving mechanism without the wire for supplying the energy is driven by the alternating magnetic field. In this paper, the experiments of the magnetic mechanisms are carried out in a transparent polyvinylchloride pipe filled with water. And also, the microrobots can move inside of horizontal, vertical and curvature pipe. The motion mechanism and locomotive characteristic of the microrobot have been evaluated. Experimental results indicate that the directional control can be realized with adjusting frequency of the input current. Based on the results, the microrobots have a rapid response, and they can clear out dirt which is adhering to the inner wall of pipe. These microrobots will play an important role in both industrial and medical applications such as microsurgery.",

keywords = "Biomedical application, Biomimetic locomotion, External magnetic field, Wireless operation",

author = "Qinxue Pan and Shuxiang Guo",

year = "2008",

language = "English",

pages = "19--22",

note = "2nd Joint Student Workshop on Mechatronics, JSWM ; Conference date: 16-09-2008 Through 22-09-2008",

}

TY - CONF

T1 - Mechanism and control of the novel types of wireless microrobots

AU - Pan, Qinxue

AU - Guo, Shuxiang

PY - 2008

Y1 - 2008

N2 - This paper reports several prototypes of the magnetically controlled microrobots working in narrow area such as blood vessels for application in microsurgery. The magnetic moving mechanism without the wire for supplying the energy is driven by the alternating magnetic field. In this paper, the experiments of the magnetic mechanisms are carried out in a transparent polyvinylchloride pipe filled with water. And also, the microrobots can move inside of horizontal, vertical and curvature pipe. The motion mechanism and locomotive characteristic of the microrobot have been evaluated. Experimental results indicate that the directional control can be realized with adjusting frequency of the input current. Based on the results, the microrobots have a rapid response, and they can clear out dirt which is adhering to the inner wall of pipe. These microrobots will play an important role in both industrial and medical applications such as microsurgery.

AB - This paper reports several prototypes of the magnetically controlled microrobots working in narrow area such as blood vessels for application in microsurgery. The magnetic moving mechanism without the wire for supplying the energy is driven by the alternating magnetic field. In this paper, the experiments of the magnetic mechanisms are carried out in a transparent polyvinylchloride pipe filled with water. And also, the microrobots can move inside of horizontal, vertical and curvature pipe. The motion mechanism and locomotive characteristic of the microrobot have been evaluated. Experimental results indicate that the directional control can be realized with adjusting frequency of the input current. Based on the results, the microrobots have a rapid response, and they can clear out dirt which is adhering to the inner wall of pipe. These microrobots will play an important role in both industrial and medical applications such as microsurgery.

KW - Biomedical application

KW - Biomimetic locomotion

KW - External magnetic field

KW - Wireless operation

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M3 - Paper

AN - SCOPUS:70349321537

SP - 19

EP - 22

T2 - 2nd Joint Student Workshop on Mechatronics, JSWM

Y2 - 16 September 2008 through 22 September 2008

ER -

Mechanism and control of the novel types of wireless microrobots

Abstract

Conference

Keywords

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