Control Of Chaos In Atomic Force Microscopes Using Delayed Feedback Based On Entropy Minimization

Hassan Salarieh; Aria Alasty

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Control Of Chaos In Atomic Force Microscopes Using Delayed Feedback Based On Entropy Minimization

机译：基于熵最小化的延迟反馈控制原子力显微镜中的混沌

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Active chaos control of a tapping mode atomic force microscope (AFM) model via delayed feedback method is presented. The feedback gain is obtained and adapted according to a minimum entropy (ME) algorithm. In this method, stabilizing an unstable fixed point of the system Poincare map is achieved by minimizing the entropy of points distribution on the Poincare section. Simulation results show the feasibility of the proposed method in applying the delayed feedback technique for chaos control of an AFM system.

机译：提出了一种通过延迟反馈方法的攻丝模式原子力显微镜（AFM）模型的主动混沌控制方法。获得反馈增益，并根据最小熵（ME）算法进行调整。在这种方法中，通过最小化Poincare截面上的点分布的熵，可以稳定系统Poincare图的不稳定固定点。仿真结果表明了该方法在延迟反馈技术应用于AFM系统混沌控制中的可行性。

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来源
《Communications in Nonlinear Science and Numerical Simulation》 |2009年第3期|p.637-644|共8页
作者
Hassan Salarieh; Aria Alasty;
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作者单位

Automatic Control Laboratory, Department of Mechanical Engineering, Sharif University of Technology, P.O. Box 11365-9567, Tehran, Iran;

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原文格式 PDF
正文语种 eng
中图分类数理科学和化学;
关键词
atomic force microscope; chaos control; minimum entropy; delayed feedback;

机译：原子力显微镜混沌控制最小熵延迟反馈;

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1. Controlling chaos in tapping mode atomic force microscopes using improved minimum entropy control [J] . M. Sadeghpour, H. Salarieh, A. Alasty Applied Mathematical Modelling . 2013,第3期

机译：使用改进的最小熵控制来控制攻丝模式原子力显微镜中的混沌
2. Development of a metrological atomic force microscope with minimized Abbe error and differential interferometer-based real-time position control [J] . Sebastien Ducourtieux, Benoit Poyet Measurement Science & Technology . 2011,第9期

机译：开发具有最小阿贝误差和基于差分干涉仪的实时位置控制的计量原子力显微镜
3. An Iterative-Based Feedforward-Feedback Control Approach to High-Speed Atomic Force Microscope Imaging [J] . Ying Wu and Qingze Zou Journal of Dynamic Systems, Measurement, and Control . 2009,第6期

机译：高速原子力显微镜成像的基于迭代的前馈反馈控制方法
4. Iteration-based Scan-Trajectory Design and Control with Output-Oscillation Minimization: Atomic Force Microscope Example [C] . Kim, Kyong-Soo, Zou, . 2007

机译：最小化输出振荡的基于迭代的扫描轨迹设计和控制：原子力显微镜示例
5. Inversion-based feedforward-feedback control: Theory and implementation to high-speed atomic force microscope imaging. [D] . Wu, Ying. 2009

机译：基于反转的前馈反馈控制：高速原子力显微镜成像的理论和实现。
6. Minimizing Pulling Geometry Errors in Atomic Force Microscope Single Molecule Force Spectroscopy [O] . Monica Rivera, Whasil Lee, Changhong Ke, 2008

机译：最小化原子力显微镜单分子力谱中的拉动几何误差
7. Inversion-based feedforward-feedback control: theory and implementation to high-speed atomic force microscope imaging [O] . Wu, Ying 2009

机译：基于反转的前馈反馈控制：高速原子力显微镜成像的理论与实现

Control Of Chaos In Atomic Force Microscopes Using Delayed Feedback Based On Entropy Minimization

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