Development of Magnetic Levitation System for Science and Technology Education: Magnetic Levitation Control by Using a Hall Element Displacement Sensor with Neural Network

Asato Kentaro; Teruya Kohmei; Nagado Tsutomu; Tamaki Shiro

首页> 外文期刊>Electrical engineering in Japan >Development of Magnetic Levitation System for Science and Technology Education: Magnetic Levitation Control by Using a Hall Element Displacement Sensor with Neural Network

【24h】

Development of Magnetic Levitation System for Science and Technology Education: Magnetic Levitation Control by Using a Hall Element Displacement Sensor with Neural Network

机译：科技教育磁悬浮系统的开发：用神经网络使用霍尔元素位移传感器的磁悬浮控制

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

In this study, we developed a magnetic levitation system using a Hall element displacement sensor with neural network for science and technology education. The sensor configured with three Hall elements was devised in order to measure displacement from an electromagnet to a levitated object with a permanent magnet. Use of the Hall element displacement sensor achieves a lower cost magnetic levitation system. Furthermore, three-layered feedforward neural network was utilized in order to improve the precision of the Hall element displacement sensor. Finally, operation verification of the developed magnetic levitation system was conducted by designing state feedback regulator with observer.

机译：在这项研究中，我们开发了一种磁悬浮系统，使用霍尔元素位移传感器，具有神经网络科学和技术教育。设计有三个霍尔元件的传感器被设计为用永磁体从电磁铁到悬浮物体的位移。使用霍尔元件位移传感器达到较低的成本磁悬浮系统。此外，利用了三层前馈神经网络，以提高霍尔元件位移传感器的精度。最后，通过使用观察者设计状态反馈稳压器进行开发磁悬浮系统的操作验证。

著录项

来源
《Electrical engineering in Japan》 |2017年第2期|共10页
作者
Asato Kentaro; Teruya Kohmei; Nagado Tsutomu; Tamaki Shiro;
展开▼
作者单位

Okinawa Coll Natl Inst Technol Dept Mech Syst Engn Nago Okinawa Japan;

Okinawa Coll Natl Inst Technol Dept Mech Syst Engn Nago Okinawa Japan;

Univ Ryukyus Fac Engn Nishihara Okinawa Japan;

Univ Ryukyus Fac Engn Nishihara Okinawa Japan;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类输配电工程、电力网及电力系统;
关键词
magnetic levitation system; science and technology educational material; Hall element; neural network;

机译：磁悬浮制度;科技教育材料;霍尔元素;神经网络;

相似文献

外文文献
中文文献
专利

1. Development of Magnetic Levitation System for Science and Technology Education: Magnetic Levitation Control by Using a Hall Element Displacement Sensor with Neural Network [J] . Asato Kentaro, Teruya Kohmei, Nagado Tsutomu, Electrical engineering in Japan . 2017,第2期

机译：科技教育磁悬浮系统的开发：用神经网络使用霍尔元素位移传感器的磁悬浮控制
2. Dual-Axial Motion Control of a Magnetic Levitation System Using Hall-Effect Sensors [J] . Xiaodong Zhang, Moein Mehrtash, Mir Behrad Khamesee Mechatronics, IEEE/ASME Transactions on . 2016,第2期

机译：使用霍尔效应传感器的磁悬浮系统的双轴运动控制
3. Development of a real-time digital control system with a hardware-in-the-loop magnetic levitation device for reinforcement of controls education [J] . Shiakolas P.S., Piyabongkarn D. IEEE Transactions on Education . 2003,第1期

机译：开发带有硬件在环磁悬浮装置的实时数字控制系统，以加强控制教育
4. Development of a Hall Element Displacement Sensor with Artificial Neural Network for Magnetic Levitation Control [C] . Kentaro Asato, Kanto Asato, Tsutomu Nagado, International Conference on Intelligent Informatics and Biomedical Sciences . 2015

机译：具有人工神经网络磁悬浮控制的霍尔元素位移传感器的研制
5. Digital control of a magnetic levitation system through xPC real-time operating system: Classical, feedforward and artificial neural network. [D] . Piyabongkarn, Damrongrit. 2000

机译：通过xPC实时操作系统对磁悬浮系统进行数字控制：经典，前馈和人工神经网络。
6. Real-Time Adaptive Control of a Magnetic Levitation System with a Large Range of Load Disturbance [O] . Zhizhou Zhang, Xiaolong Li 2018

机译：具有大范围负载扰动的磁悬浮系统的实时自适应控制
7. Development of Magnetic Levitation System for Science and Technology Education: Magnetic Levitation Control by Using a Hall Element Displacement Sensor with Neural Network [O] . KENTARO ASATO, KOHMEI TERUYA, TSUTOMU NAGADO, 2017

机译：科技教育磁悬浮系统的开发：用神经网络使用霍尔元素位移传感器的磁悬浮控制
8. Neural network based time-optimal control of a magnetically levitated precision positioning system [R] . Redmond, J, Tucker, S 1994

机译：基于神经网络的磁悬浮精密定位系统的时间最优控制

Development of Magnetic Levitation System for Science and Technology Education: Magnetic Levitation Control by Using a Hall Element Displacement Sensor with Neural Network

摘要

著录项

相似文献

相关主题

期刊订阅