DocumentCode
105247
Title
Magnetic Sensor-Based Large Distance Position Estimation With Disturbance Compensation
Author
Taghvaeeyan, Saber ; Rajamani, Rajesh
Author_Institution
Dept. of Mech. Eng., Univ. of Minnesota, Minneapolis, MN, USA
Volume
15
Issue
8
fYear
2015
fDate
Aug. 2015
Firstpage
4249
Lastpage
4258
Abstract
Magnetic sensors have previously been used for position measurement only at very small distances between the magnet and the sensor. While they could potentially also be used at larger distances by exploiting nonlinear magnetic field functions, a serious challenge comes from magnetic disturbances. The presence of foreign ferromagnetic objects, variations in the Earth´s magnetic field with location, and electromagnetic disturbances can cause such position estimation systems to have significant errors. This paper enables robust large-distance position estimation using redundant sensors and real-time disturbance estimation. Adaptive estimation algorithms that auto-calibrate magnetic parameters and compensate for disturbances are developed. Experimental results with a pneumatic cylinder demonstrate that sub-millimeter accuracies in position measurement can be obtained with such a system in spite of disturbances from external ferromagnetic objects. The developed sensing principle has a large number of applications, including position estimation in pneumatic cylinders, hydraulic actuators, spool valves, and many other machinery.
Keywords
adaptive estimation; calibration; compensation; ferromagnetic materials; magnetic sensors; pneumatic systems; position measurement; adaptive estimation algorithm; disturbance compensation; disturbance estimation; ferromagnetic objects; hydraulic actuators; large distance position estimation; magnetic parameter autocalibration; magnetic sensors; pneumatic cylinder; position measurement; redundant sensors; spool valves; Estimation; Magnetic field measurement; Magnetic fields; Magnetic sensors; Pistons; Position measurement; Position estimation; disturbance rejection; extended Kalman filter; magnetic sensors; nonlinear least squares; robust estimation; robust estimations;
fLanguage
English
Journal_Title
Sensors Journal, IEEE
Publisher
ieee
ISSN
1530-437X
Type
jour
DOI
10.1109/JSEN.2015.2413936
Filename
7062009
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