Novel Vertical Scanning Algorithm with Advanced Control to Increase Range and Accuracy of Differential Confocal Microscopy
Journal
IEEE Transactions on Instrumentation and Measurement
Journal Volume
71
Date Issued
2022
Author(s)
Abstract
Differential confocal microscopy (DCM) is a powerful tool for mapping the 3-D topography of samples at micrometer and submicrometer scales. However, the limited vertical scanning range of conventional DCM makes it challenging to obtain 3-D profiles precisely. This study sought to mitigate this restriction by developing a novel vertical scanning algorithm as well as an adaptive sliding mode controller based on the internal model principle to precisely track the step scanning trajectory to deal with uncertainties in system parameters, external disturbances, and the hysteresis effect of the piezoelectric scanner in the $Z$ -axis. In experiments, our proprietary DCM system proved highly effective in terms of scanning range, imaging accuracy, and reliability. © 1963-2012 IEEE.
Subjects
Adaptive sliding mode control (ASMC); differential confocal microscopy (DCM); imaging accuracy; internal model principle (IMP); vertical scanning range
Other Subjects
Adaptive control systems; Confocal microscopy; Laser beams; Lenses; Sliding mode control; Adaptive sliding mode control; Differential confocal; Differential confocal microscopy; Imaging accuracy; Instrumentation and measurements; Internal model principle; Measurement by laser beam; Nonhomogeneous medium; Scanning range; Vertical scanning; Vertical scanning range; Scanning
Adaptive sliding mode control (ASMC); differential confocal microscopy (DCM); imaging accuracy; internal model principle (IMP); vertical scanning range
Type
journal article