Experimental validation of the simultaneous damping and tracking controller design strategy for high-bandwidth nanopositioning -- a PAVPF approach
DOI10.1049/IET-CTA.2020.0679zbMATH Open1542.93113MaRDI QIDQ6611597
Adedayo K. Babarinde, [[Person:6149811|Author name not available (Why is that?)]], Linlin Li, LiMin Zhu
Publication date: 26 September 2024
Published in: IET Control Theory \& Applications (Search for Journal in Brave)
trackingfeedbackdampingpiezoelectric actuatorstransient responseposition controlclosed loop systemscontrol system synthesisopen loop systemsnanopositioningbandwidth nanopositioningclosed-loop bandwidthdamping performancehigh-bandwidth nanopositioninglow positioning bandwidthPAVPF control-based systemsimultaneous dampingsimultaneous design methodtracking controller design strategytracking controller parameters
Cites Work
- Adaptive PI-based sliding mode control for nanopositioning of piezoelectric actuators
- A comparison of scanning methods and the vertical control implications for scanning probe microscopy
- Control Techniques for Increasing the Scan Speed and Minimizing Image Artifacts in Tapping-Mode Atomic Force Microscopy: Toward Video-Rate Nanoscale Imaging
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