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Robotic Localization Based on Planar Cable Robot and Hall Sensor Array Applied to Magnetic Capsule Endoscope

机译：基于平面电缆机器人和霍尔传感器阵列的机器人定位施加到磁胶囊内窥镜

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摘要

Recently an active locomotive capsule endoscope (CE) for diagnosis and treatment in the digestive system has been widely studied. However, real-time localization to achieve precise feedback control and record suspicious positioning in the intestine is still challenging owing to the limitation of capsule size, relatively large diagnostic volume, and compatibility of other devices in clinical site. To address this issue, we present a novel robotic localization sensing methodology based on the kinematics of a planar cable driven parallel robot (CDPR) and measurements of the quasistatic magnetic field of a Hall effect sensor (HES) array. The arrangement of HES and the Levenberg-Marquardt (LM) algorithm are applied to estimate the position of the permanent magnet (PM) in the CE, and the planar CDPR is incorporated to follow the PM in the CE. By tracking control of the planar CDPR, the position of PM in any arbitrary position can be obtained through robot forward kinematics with respect to the global coordinates at the bedside. The experimental results show that the root mean square error (RMSE) for the estimated position value of PM was less than 1.13 mm in the X, Y, and Z directions and less than 1.14° in the θ and φ orientation, where the sensing space could be extended to ±70 mm for the given 34 × 34 mm2 HES array and the average moving distance in the Z-direction is 40 ± 2.42 mm. The proposed method of the robotic sensing with HES and CDPR may advance the sensing space expansion technology by utilizing the provided single sensor module of limited sensible volume.

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期刊名称 Sensors (Basel Switzerland)
作者
Min-Cheol Kim; Eui-Sun Kim; Jong-Oh Park; Eunpyo Choi; Chang-Sei Kim;
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作者单位

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年(卷),期 2020(20),20
年度 2020
页码 5728
总页数 18
原文格式 PDF
正文语种
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关键词
augmented sensor with robotic system; Hall effect sensor; cable driven parallel robot; capsule endoscope localization;

机译：带有机器人系统的增强传感器;霍尔效应传感器;电缆驱动并联机器人;胶囊内窥镜定位;

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专利

1. A 5-D Localization Method for a Magnetically Manipulated Untethered Robot Using a 2-D Array of Hall-Effect Sensors [J] . Donghoon Son, Sehyuk Yim, Metin Sitti Mechatronics, IEEE/ASME Transactions on . 2016,第2期

机译：使用霍尔效应传感器的二维阵列的电磁操纵的非捆绑式机器人的5-D定位方法
2. Jacobian-Based Iterative Method for Magnetic Localization in Robotic Capsule Endoscopy [J] . C. Di Natali, M. Beccani, N. Simaan, IEEE Transactions on Robotics . 2016,第2期

机译：基于Jacobian的机器人胶囊内窥镜中磁定位的迭代方法
3. Magnetic landmark-based position correction technique for mobile robots with hall sensors [J] . Byung June Choi, Bumsoo Kim, Sung Moon Jin, Intelligent Service Robotics . 2010,第2期

机译：基于磁性地标的带霍尔传感器的移动机器人位置校正技术
4. A New Localization System for Tracking Capsule Endoscope Robot Based on Digital 3-Axis Magnetic Sensors Array [C] . Ming Xu, Deyu Kong, Linfei Ye, Chinese Intelligent Systems Conference . 2018

机译：基于数字三轴磁传感器阵列的新型胶囊内窥镜机器人定位系统
5. Localization and orientation system for robotic wireless capsule endoscope [D] . Hu, Chao. 2006

机译：机器人无线胶囊内窥镜定位与定位系统
6. A 5-D Localization Method for a Magnetically Manipulated Untethered Robot using a 2-D Array of Hall-effect Sensors [O] . Donghoon Son, Sehyuk Yim, Metin Sitti -1

机译：使用霍尔效应传感器的二维阵列的电磁操纵的无绳机器人的5-D定位方法
7. Robotic Localization Based on Planar Cable Robot and Hall Sensor Array Applied to Magnetic Capsule Endoscope [O] . Min-Cheol Kim, Eui-Sun Kim, Jong-Oh Park, 2020

机译：基于平面电缆机器人和霍尔传感器阵列的机器人定位施加到磁胶囊内窥镜

Robotic Localization Based on Planar Cable Robot and Hall Sensor Array Applied to Magnetic Capsule Endoscope

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