An accurate model for size optimization of an embedded permanent magnet for drug delivery with capsule robots

2015 IEEE International Conference on Technologies for Practical Robot Applications (TePRA) Pub Date : 2015-05-11 DOI:10.1109/TePRA.2015.7219696

F. Munoz, G. Alici, Weihua Li

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引用次数: 6

Abstract

An actively controlled drug delivery system (DDS) is an essential module to be included in the next generation of capsule endoscopy. Its development will allow physicians to perform non-invasive procedures and treat diseases in the digestive system. Despite many attempts to magnetically actuate internal permanent magnets (IPMs) embedded in prototype capsule robots to enhance their capabilities, further miniaturization and optimization of the IPMs are required to achieve more efficient torque transmission while minimizing the size of the IPMs. In this paper, we optimize the IPM's size to obtain a high magnetic torque that activates a DDS which is based on an overly miniaturized slider-crank mechanism. The IPM is optimized by means of analytical models. Our experimental results, which are in agreement with the analytical results, show that a high torque and force are generated on the piston of the DDS that expels drug out of a reservoir when an optimized IPM is embedded in the capsule robot.

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胶囊机器人给药用嵌入式永磁体尺寸优化的精确模型

主动控制给药系统(DDS)是下一代胶囊内窥镜中必不可少的模块。它的发展将使医生能够进行非侵入性手术并治疗消化系统疾病。尽管许多人尝试在胶囊机器人原型中嵌入磁性驱动内部永磁体(ipm)以增强其能力，但为了在最小化ipm尺寸的同时实现更有效的扭矩传递，还需要进一步小型化和优化ipm。在本文中，我们优化了IPM的尺寸，以获得高磁转矩，从而激活基于超小型化滑块曲柄机构的DDS。利用分析模型对IPM进行了优化。我们的实验结果与分析结果一致，表明当优化的IPM嵌入胶囊机器人时，DDS的活塞产生了很大的扭矩和力，使药物从储罐中排出。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE International Conference on Technologies for Practical Robot Applications (TePRA)

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