Disturbance Torque and Motion State Estimation With Low-Resolution Position Interfaces Using Heterodyning Observers

Author

Tesch, Tod R. ; Lorenz, Robert D.

Author_Institution

Controls & Software Dev., Siemens VDO, Dearborn, MI

Volume

44

Issue

1

fYear

2008

Firstpage

124

Lastpage

134

Abstract

This paper assesses and analyzes a harmonic vector modeling method for reducing disturbance torque and motion state estimation error using quantized input measurements of position. There is a finite resolution available for any digital interface, and quantization will always be present in some form. Although it is not possible to completely reconstruct a quantized measured state, it is possible to attenuate deterministic quantization characteristics. The discussed method models quantized position feedback as a spatially rotating vector consisting of fundamental and harmonic components. The error mitigation strategy involves decoupling these spatial quantization harmonics from the actual fundamental position, using heterodyning tracking observer topologies.

Keywords

data compression; image coding; image resolution; motion estimation; deterministic quantization characteristics; disturbance torque; error mitigation strategy; harmonic vector modeling method; heterodyning observers; low-resolution position interfaces; motion state estimation; spatial quantization harmonics; Attenuation measurement; Harmonic analysis; Motion analysis; Motion measurement; Observers; Position measurement; Quantization; Spatial resolution; State estimation; Torque measurement; Observers; position estimation; quantization; spatial harmonics; torque estimation; velocity estimations;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/TIA.2007.912736

Filename

4439789