Nonlinear compensation of a new noncontact joystick using the universal joint mechanism

Hong Zhe Jin; Hao Lu; Seung Keun Cho; Jang Myung Lee

doi:10.1109/TMECH.2007.905711

Nonlinear compensation of a new noncontact joystick using the universal joint mechanism

Hong Zhe Jin^*
, Hao Lu
, Seung Keun Cho
, Jang Myung Lee

^*Corresponding author for this work

Pusan National University

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

14 Scopus citations

Abstract

This paper demonstrates a new noncontact electronic joystick using a single Hall sensor that detects a horizontal vector in the magnetic field. Furthermore, in this paper, the nonlinear characteristics between the output of the hall sensor and the movement of the joystick bar are modeled and compensated to be linear. The dynamic horizontal vector of the magnetic flux is detected by the hall sensor while a permanent magnet is rotated with the joystick bar, which has a 2-D detecting area. With the nonlinear modeling equations, the hall sensor output became linear and accurate for the 2-D joystick movement. Through real experiments, it is shown that the single hall sensor structure mechanism is superior to the dual sensor structure in sensing 2-D motion without offset.

Original language	English
Pages (from-to)	549-556
Number of pages	8
Journal	IEEE/ASME Transactions on Mechatronics
Volume	12
Issue number	5
DOIs	https://doi.org/10.1109/TMECH.2007.905711
State	Published - Oct 2007
Externally published	Yes

Keywords

Hall sensor
Joystick
Magnetic field
Nonlinear characteristics equation
Nonlinear compensation

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10.1109/TMECH.2007.905711

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title = "Nonlinear compensation of a new noncontact joystick using the universal joint mechanism",

abstract = "This paper demonstrates a new noncontact electronic joystick using a single Hall sensor that detects a horizontal vector in the magnetic field. Furthermore, in this paper, the nonlinear characteristics between the output of the hall sensor and the movement of the joystick bar are modeled and compensated to be linear. The dynamic horizontal vector of the magnetic flux is detected by the hall sensor while a permanent magnet is rotated with the joystick bar, which has a 2-D detecting area. With the nonlinear modeling equations, the hall sensor output became linear and accurate for the 2-D joystick movement. Through real experiments, it is shown that the single hall sensor structure mechanism is superior to the dual sensor structure in sensing 2-D motion without offset.",

keywords = "Hall sensor, Joystick, Magnetic field, Nonlinear characteristics equation, Nonlinear compensation",

author = "Jin, \{Hong Zhe\} and Hao Lu and Cho, \{Seung Keun\} and Lee, \{Jang Myung\}",

year = "2007",

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AU - Jin, Hong Zhe

AU - Lu, Hao

AU - Cho, Seung Keun

AU - Lee, Jang Myung

PY - 2007/10

Y1 - 2007/10

N2 - This paper demonstrates a new noncontact electronic joystick using a single Hall sensor that detects a horizontal vector in the magnetic field. Furthermore, in this paper, the nonlinear characteristics between the output of the hall sensor and the movement of the joystick bar are modeled and compensated to be linear. The dynamic horizontal vector of the magnetic flux is detected by the hall sensor while a permanent magnet is rotated with the joystick bar, which has a 2-D detecting area. With the nonlinear modeling equations, the hall sensor output became linear and accurate for the 2-D joystick movement. Through real experiments, it is shown that the single hall sensor structure mechanism is superior to the dual sensor structure in sensing 2-D motion without offset.

AB - This paper demonstrates a new noncontact electronic joystick using a single Hall sensor that detects a horizontal vector in the magnetic field. Furthermore, in this paper, the nonlinear characteristics between the output of the hall sensor and the movement of the joystick bar are modeled and compensated to be linear. The dynamic horizontal vector of the magnetic flux is detected by the hall sensor while a permanent magnet is rotated with the joystick bar, which has a 2-D detecting area. With the nonlinear modeling equations, the hall sensor output became linear and accurate for the 2-D joystick movement. Through real experiments, it is shown that the single hall sensor structure mechanism is superior to the dual sensor structure in sensing 2-D motion without offset.

KW - Hall sensor

KW - Joystick

KW - Magnetic field

KW - Nonlinear characteristics equation

KW - Nonlinear compensation

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M3 - 文章

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JO - IEEE/ASME Transactions on Mechatronics

JF - IEEE/ASME Transactions on Mechatronics

IS - 5

ER -

Nonlinear compensation of a new noncontact joystick using the universal joint mechanism

Abstract

Keywords

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