Universitat de Barcelona
2013-11-29T10:45:53Z
2013-11-29T10:45:53Z
2012-01-24
2013-11-29T10:45:53Z
The time required to image large samples is an important limiting factor in SPM-based systems. In multiprobe setups, especially when working with biological samples, this drawback can make impossible to conduct certain experiments. In this work, we present a feedfordward controller based on bang-bang and adaptive controls. The controls are based in the difference between the maximum speeds that can be used for imaging depending on the flatness of the sample zone. Topographic images of Escherichia coli bacteria samples were acquired using the implemented controllers. Results show that to go faster in the flat zones, rather than using a constant scanning speed for the whole image, speeds up the imaging process of large samples by up to a 4x factor.
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Microscòpia de força atòmica; Bacteris; Sistemes adaptatius; Teoria de sistemes; Microscopis electrònics; Citologia; Nanotecnologia; Atomic force microscopy; Bacteria; Adaptive control systems; System theory; Electron microscope; Cytology; Nanotechnology
MDPI Publishing
Reproducció del document publicat a: http://dx.doi.org/10.3390/s120100686
Sensors, 2012, vol. 12, p. 686-703
http://dx.doi.org/10.3390/s120100686
cc-by (c) Otero Díaz, Jorge et al., 2012
http://creativecommons.org/licenses/by/3.0/es
