Models of Magnetic Driver Interaction with Ferromagnetic Surface and Geometric Data Computing for Clamping Force Localization Patches

机译：电磁驱动器与铁磁表面的相互作用模型以及夹紧力局部化补丁的几何数据计算

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This paper deals with the main features of electromagnetic interaction between the mobile robot's (MR) electromagnetic driver and ferromagnetic surface. In particular, the problems of clamping force calculation are discussed for robotic applications. The main attention is paid to computing of geometrical parameters of clamping forces localization patches by proposed combination-generation method. Efficiency of the method is checked by computer simulation and shown for one arc of localization patch's contour. Obtained results show rather high accuracy of this processing and its ability to be used in a functional structure of an experimental setup for fast Hall sensors' data stream computing at clamping force calculation by computerized tools.

机译：本文探讨了移动机器人（MR）电磁驱动器与铁磁表面之间电磁相互作用的主要特征。特别是，讨论了用于机器人应用的夹紧力计算问题。提出的组合生成方法主要关注夹紧力定位补丁的几何参数计算。该方法的效率通过计算机仿真进行了检查，并显示了局部补丁轮廓的一弧度。所获得的结果表明，该处理过程具有很高的准确性，并且可以在通过计算机工具进行夹紧力计算的快速霍尔传感器数据流计算的实验装置的功能结构中使用。

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来源
《2018 IEEE Second International Conference on Data Stream Mining amp; Processing》|2018年|44-49|共6页
会议地点 Lviv(UA)
作者
Oleksandr Gerasin; Yuriy Zaporozhets; Yuriy Kondratenko;
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作者单位

Computerized Control Systems Department, Admiral Makarov National University of Shipbuilding, Mykolaiv, Ukraine;

Intelligent Information Systems Department, Petro Mohyla Black Sea National University, Mykolaiv, Ukraine;

Intelligent Information Systems Department, Petro Mohyla Black Sea National University, Mykolaiv, Ukraine;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Clamps; Magnetic flux; Magnetic resonance imaging; Force; Magnetic separation; Iron; Robots;

机译：夹具;磁通量;磁共振成像;力;磁分离;铁;机器人;;

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2. Experimental identification of the magneto-mechanical behavior and mathematical modeling of the interaction force between the micro size ferromagnetic particles [J] . Aguib Salah, Nedjar Ali, Zerrouni Nassim, International journal of applied electromagnetics and mechanics . 2019,第1期

机译：微尺寸铁磁性粒子相互作用的磁力学行为的实验鉴定及数学建模
3. Magnetic Interactions of Vanadyl Phthalocyanine with Ferromagnetic Iron, Cobalt, and Nickel Surfaces [J] . Keitaro Eguchi, Yasumasa Takagi, Takeshi Nakagawa The journal of physical chemistry, C. Nanomaterials and interfaces . 2014,第31期

机译：钒酞菁与铁磁，钴和镍表面的磁性相互作用
4. Models of Magnetic Driver Interaction with Ferromagnetic Surface and Geometric Data Computing for Clamping Force Localization Patches [C] . Oleksandr Gerasin, Yuriy Zaporozhets, Yuriy Kondratenko IEEE International Conference on Data Stream Mining and Processing . 2018

机译：用于夹紧力定位贴片的铁磁表面和几何数据计算的磁力驱动器交互的模型
5. Zeeman Splitting Caused by Localized sp-d Exchange Interaction in Ferromagnetic GaMnAs Observed by Magneto-Optical Characterization. [D] . Tanaka, Hiroki. 2015

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6. Magnetic Tweezers-Based Force Clamp Reveals Mechanically Distinct apCAM Domain Interactions [O] . Devrim Kilinc, Agata Blasiak, James J. O’Mahony, 2012

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7. MODELING OF CLAMPING MAGNETS INTERACTION WITH FERROMAGNETIC SURFACE FOR WHEEL MOBILE ROBOTS [O] . Yuriy Kondratenko, Yuriy Zaporozhets, Joachim Rudolph, 2018

机译：夹紧磁铁与车轮移动机器人铁磁表面相互作用的建模

Models of Magnetic Driver Interaction with Ferromagnetic Surface and Geometric Data Computing for Clamping Force Localization Patches

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