| 1 |
Adaptive hysteresis compensation on an experimental nanopositioning platform
Ryba L, Dokoupil J, Voda A, Besancon G
International Journal of Control, 90(4), 765, 2017 |
| 2 |
A decoupled inversion-based iterative control approach to multi-axis precision positioning: 3D nanopositioning example
Yan Y, Wang HM, Zou QZ
Automatica, 48(1), 167, 2012 |
| 3 |
Accounting for hysteresis in repetitive control design: Nanopositioning example
Shan YF, Leang KK
Automatica, 48(8), 1751, 2012 |
| 4 |
High Precision Position Control Using an Adaptive Friction Compensation Approach
Amthor A, Zschaeck S, Ament C
IEEE Transactions on Automatic Control, 55(1), 274, 2010 |
| 5 |
Positioning Pd catalyst particles for carbon nanotube growth using charge patterns created with a scanning electron microscope
Zonnevylle AC, Hagen CW, Kruit P, Valenti M, Schmidt-Ott A
Journal of Vacuum Science & Technology B, 27(6), 3048, 2009 |
| 6 |
Nanometrology - Nanopositioning- and nanomeasuring machine with integrated nanoprobes
Jager G, Hausotte T, Manske E, Buchner H, Mastylo R, Dorozhovets N, Fussl R, Grunwald R
Materials Science Forum, 505-507, 7, 2006 |
