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Design, analysis, and testing of a motor-driven capsule robot based on a sliding clamper

Jinyang Gao, Guozheng Yan, He Su, Fei Xu, Zhiwu Wang

发表年份
2015
引用次数
21

摘要

SUMMARY We propose a motor-driven capsule robot based on a sliding clamper (MCRSC), a device to explore the partially collapsed and winding intestinal tract. The MCRSC is powered by wireless power transmission based on near-field inductive coupling. It comprises a novel locomotion unit, a camera, and a three-dimensional receiving coil, all installed at both ends of the locomotion unit. The novel locomotion unit comprises a linear motion mechanism and a sliding clamper. The former adopts a pair of lead-screw and nut to obtain linear motion, whereas the latter anchors the MCRSC to a specific point of the intestinal tract by expanding its arc-shaped legs. The MCRSC is capable of two-way locomotion, which is activated by alternately executing linear motion and anchoring action. Ex vivo experiments have shown that the MCRSC is able to inspect the colon within a time frame of standard colonoscopy.

关键词

Computer sciencePower transmissionMotion (physics)RobotTransmission (telecommunications)Linear motorControl theory (sociology)Power (physics)Artificial intelligenceSimulation

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