论文信息 - Design and control of a magnetically driven capsule-robot for endoscopy and drug delivery

Design and control of a magnetically driven capsule-robot for endoscopy and drug delivery

Much research on the development of a robotic capsule and micro robot for the diagnosis of gastrointestinal diseases has been carried out. The powering of these micro systems is becoming very important as the implementation of such systems is limited due to existence of on-board power supplies. This paper presents a micro robotic system based on magnetic principles to eliminate the use of on-board power supplies. The goal is to build a system in which a capsule-robot can be manipulated wirelessly inside human's body. A micro robot (capsule robot) can be remotely operated with 3 DOF in an enclosed environment by transferring magnetic energy and electromagnetic waves. A magnetic drive unit generates magnetic energy for the micro robot's manipulation. Experimental results show the capsule-robot is manipulated and moved through a desired trajectory in a liquid. One of the significant advantages of the capsule endoscopy is that the procedure is ambulatory and the patient can live normally during the experiment. However, the use of the proposed system will require the patient to remain stationary during the experiment, which usually lasts about eight hours.

Mir Behrad Khamesee | Saman Hosseini

[1] Mir Behrad Khamesee,et al. Motion control of a large gap magnetic suspension system for microrobotic manipulation , 2007 .

[2] Mir Behrad Khamesee,et al. Black-box model identification of a magnetically levitated microrobotic system , 2007 .

[3] Arianna Menciassi,et al. Wireless capsule endoscopy: from diagnostic devices to multipurpose robotic systems , 2007, Biomedical microdevices.

[4] Jong-Oh Park,et al. Design and fabrication of a locomotive mechanism for capsule-type endoscopes using shape memory alloys (SMAs) , 2005 .

[5] Y. Kopelman,et al. Evaluation of the PillCam Colon capsule in the detection of colonic pathology: results of the first multicenter, prospective, comparative study. , 2006, Endoscopy.

[6] Byungkyu Kim,et al. A new endoscopic microcapsule robot using beetle inspired microfibrillar adhesives , 2005, Proceedings, 2005 IEEE/ASME International Conference on Advanced Intelligent Mechatronics..

[7] P. Dario,et al. Recent Patents on Wireless Capsule Endoscopy , 2008 .

[8] T. Tsuji,et al. Analysis of Specific Absorption Rate and Current Density in an Energy Transmission System for a Wireless Capsule Endoscope , 2007, 2007 29th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.