Publications in Scientific Journals:
S. Kuiper, P. M. J. Van den Hof, G. Schitter:
"Integrated designof the feedback controller and topography estimator for atomic force microscopy";
Control Engineering Practice,
21
(2013),
1110
- 1120.
English abstract:
In atomic force microscopy (AFM) the force between the measurement tip and the sample is
controlled in
a feedback loop to prevent damage of the tip and sample during imaging, and to convert
the measurement of the tip-sample force into an estimate of the sample topography. Dynamical
uncertain- ties of the system limit the achievable control bandwidth and the accuracy of the
topography estimation. This paper presents an integrated approach to design a feedback
controller and topography estimator, taking into account the dynamical uncertainties of the
system. The proposed methodology is experimentally demonstrated on a commercial AFM
system, showing a direct trade-off between the
control bandwidth and the accuracy of the topography estimation.
Created from the Publication Database of the Vienna University of Technology.