Andreas Kotsopoulos and Theodore Antonakopoulos:
Architecture and implementation of an adaptive nanopositioning
controller for fast spiral scanning
The IEEE International Symposium on Signal Processing and Information
Technology (ISSPIT), December 12-15, 2013 - Athens, Greece.
Abstract: Nanopositioning is a key factor for a wide range
of applications, such as surface imaging and ultra-high-density probe-based data storage. These
applications use scanning probes in order to sense and alter the properties of the underlying
medium with nanoscale precision. Recently, new scanning schemes were introduced that can lead to
high-speed nanopositioning, if their inherent properties are properly exploited by the tracking
control mechanism. The aim for high-speed operation poses stringent requirements to the controller
architecture, in terms of speed of execution and arithmetic accuracy. In this paper we present the
design of a linear time-varying controller for high-speed, constant linear velocity archimedean spiral
scanning. This effort includes the design and implementation of such a control scheme, as well as a
flexible multi-board hardware and software test-bed for nanopositioning systems. For proof of concept,
the presented controller is applied to an experimental AFM-based scanning probe setup in order to
track spiral trajectories efficiently.
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