Tracking a reference signal is one of the major problems of an atomic force microscope (AFM). This article presents the design and experimental implementation of a model predictive control (MPC) scheme, with a vibration compensator for achieving accurate tracking for an AFM at higher scanning rates. To evaluate the improvement in performance attained by this control scheme, an experimental comparison of its tracked signals against different reference signals at different scanning rates is conducted. The experimental results demonstrate the effectiveness of the proposed controller
In atomic force microscopy (AFM) the force between the measurement tip and the sample is controlled ...
The paper presents a model reference adaptive control (MRAC) of first and second order to control th...
Research Doctorate - Doctor of Philosophy (PhD)The atomic force microscope is possibly one of the gr...
Nanotechnology is an area of modern science which deals with the control of matter at dimensions of ...
There is a need, in the wide ranging scientific community, to perform fast scans using atomic force ...
This article presents the design and experimental implementation of an observer-based model predicti...
International audienceThe Atomic Force Microscope (AFM) is a reliable tool 6 for 3D imaging and mani...
The performance of the atomic force microscope (AFM), a nanoscale imaging tool, is significantly inf...
The atomic force microscope (AFM) is a device capable of generating topographic images of sample sur...
We outline the application of modulated-demodulated control to the quality (Q) factor control of an ...
This research is focused on improving the mechatronic design and control strategies of Atomic Force ...
This paper presents experimental implementation of a positive position feedback (PPF) control scheme...
Atomic Force Microscopes (AFMs) are widely used for the investigation of samples at nanometer scale....
Atomic Fore Microscopes (AFM) are widely used for nanoscale applications. Until recent developments ...
This paper demonstrates a simple second-order controller that eliminates scan-induced oscillation an...
In atomic force microscopy (AFM) the force between the measurement tip and the sample is controlled ...
The paper presents a model reference adaptive control (MRAC) of first and second order to control th...
Research Doctorate - Doctor of Philosophy (PhD)The atomic force microscope is possibly one of the gr...
Nanotechnology is an area of modern science which deals with the control of matter at dimensions of ...
There is a need, in the wide ranging scientific community, to perform fast scans using atomic force ...
This article presents the design and experimental implementation of an observer-based model predicti...
International audienceThe Atomic Force Microscope (AFM) is a reliable tool 6 for 3D imaging and mani...
The performance of the atomic force microscope (AFM), a nanoscale imaging tool, is significantly inf...
The atomic force microscope (AFM) is a device capable of generating topographic images of sample sur...
We outline the application of modulated-demodulated control to the quality (Q) factor control of an ...
This research is focused on improving the mechatronic design and control strategies of Atomic Force ...
This paper presents experimental implementation of a positive position feedback (PPF) control scheme...
Atomic Force Microscopes (AFMs) are widely used for the investigation of samples at nanometer scale....
Atomic Fore Microscopes (AFM) are widely used for nanoscale applications. Until recent developments ...
This paper demonstrates a simple second-order controller that eliminates scan-induced oscillation an...
In atomic force microscopy (AFM) the force between the measurement tip and the sample is controlled ...
The paper presents a model reference adaptive control (MRAC) of first and second order to control th...
Research Doctorate - Doctor of Philosophy (PhD)The atomic force microscope is possibly one of the gr...