M. Tordon scite author profile

2004

This paper presents a generic approach to model the noise covariance associated with discrete sensors such as incremental encoders and low resolution analog to digital converters. The covariance is then used in an adaptive Kalman Filter that selectively and appropriately carries out measurement updates. The temporal as well as system state measurements are used to predict the quantization error of the measurement signal. The effectiveness of the method is demonstrated by applying the technique to incremental encoders of varying resolutions. Simulation of an example system with varying encoder resolutions is presented to show the performance of the new filter. Results show that the new adaptive filter produces more accurate results while requiring a lower resolution encoder than a similarly designed conventional Kalman filter, especially at low velocities.

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Line Segment Based Scan Matching for Concurrent Mapping and Localization of a Mobile Robot

Yaqub

2006

Modelling HEUI injector In MATLAB Simulink

Tran

Milton

White

et al.

The present work describes the development and partial validation of a mathematical model of an Hydraulically actuated Electronically controlled Unit Injector (HEUI). The HEUI analyses include submodels of the solenoid, hydraulic differential valve (HDV), intensij5er and injector subsystems. It has been implemented using the MATLAB/SIMULINK graphical software environment. The modelled HEUI is a compact, flexible diesel injector developed at the University of New South Wales in conjunction with local industry. The work undertaken is part of a wider study aimed at optimization of the design of the HEUI for dual-fuel systems. *m.tordonOunsw.edu.au 0-7803-7759-1/03/$17.00 0 2003 IEEE

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An active axis control system for a conventional CNC machine

Hanafi

In-vehicle data logging system for fatigue analysis of drive shaft

Ilić