In this paper, a robust spiral positioning of a piezoelectric tube scanner (PTS) used in an atomic force microscope (AFM) is proposed. A minimax linear quadratic Gaussian (LQG) controller is designed based on an uncertainty system model which is constructed by measuring the modeling error between the measured and model frequency response. This controller is robust against uncertainties introduced as a result of spillover dynamics of the scanner at frequencies after the first resonance frequency (900 Hz) of the scanner and variation in plant transfer functions due to temperature and humidity. The proposed scheme provides sufficient damping at resonant modes to track the reference sinusoidal signal. The experimental results demonstrate that sufficiently high positioning accuracy is achieved using the proposed control scheme.
Conference paper
Robust spiral positioning control of a piezoelectric tube scanner
IEEE
2015 IEEE Conference on Control Applications (CCA) (Sydney, Australia, 21-23 September)
2015
Metrics
21 Record Views
Abstract
Details
- Title
- Robust spiral positioning control of a piezoelectric tube scanner
- Creators
- H Habibullah - University of New South WalesH R Pota - University of New South WalesR Petersen - University of New South Wales
- Conference
- 2015 IEEE Conference on Control Applications (CCA) (Sydney, Australia, 21-23 September)
- Publisher
- IEEE; Sydney, Australia
- Identifiers
- 4470; 991012820314802368
- Academic Unit
- Faculty of Science and Engineering; School of Environment, Science and Engineering
- Resource Type
- Conference paper