Title :
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
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;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2007.912736
