Title :
Nanoscale servo control of contact-mode AFM with surface topography learning observer
Author :
Fujimoto, Hiroshi ; Oshima, Takashi
Author_Institution :
Yokohama Nat. Univ., Yokohama
Abstract :
Atomic force microscope (AFM) is a device that can measure the surface of the samples on a nano-scale. Most of the controllers of commercial AFMs are designed by classic control theory. However, sophisticated control theory has been applied in recent academic papers. Authors have already proposed a surface topography observer (STO) based on disturbance observer theory in contact mode. In this paper, perfect tracking control (PTC) is applied to contact-mode AFM with surface topography learning. PTC can guarantee that the error between the plant output and the desired trajectory becomes perfectly zero at every sampling point when the plant has no modeling error. Moreover, a surface topography learning observer (STLO) is proposed to generate feedforward compensation signal based on STO. These three methods are compared in simulations and experiments.
Keywords :
atomic force microscopy; control system synthesis; instrumentation; servomechanisms; surface topography; atomic force microscope; disturbance observer theory; feedforward compensation signal; nanoscale servo control; perfect tracking control; surface topography learning observer; Atomic force microscopy; Atomic measurements; Control systems; Force measurement; Nanoscale devices; Optical beams; Optical interferometry; Probes; Servosystems; Surface topography;
Conference_Titel :
Advanced Motion Control, 2008. AMC '08. 10th IEEE International Workshop on
Conference_Location :
Trento
Print_ISBN :
978-1-4244-1702-5
Electronic_ISBN :
978-1-4244-1703-2
DOI :
10.1109/AMC.2008.4516129
