A Novel Passive Magnetic Localization Wearable System for Wireless Capsule Endoscopy
Magnetic localization provides a feasible way to estimate the position and orientation of the wireless capsule endoscopy embedded with a permanent magnet. However, the magnetic localization suffers from the drifting effect from magnetic noises and the uncertain initial guess during the optimization....
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| Published in | IEEE sensors journal Vol. 19; no. 9; pp. 3462 - 3472 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.05.2019
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Magnetic localization provides a feasible way to estimate the position and orientation of the wireless capsule endoscopy embedded with a permanent magnet. However, the magnetic localization suffers from the drifting effect from magnetic noises and the uncertain initial guess during the optimization. In this paper, a localization system with noise cancellation is proposed to reduce the drifting effect of the geomagnetic noise and obtain the initial guess in a simple and effective way. Compared to the prior arts, the proposed system is able to achieve a lower positioning and orientation error under the same system configuration and makes it possible for the patient to move around while wearing the localization system. Besides, the proposed algorithm improves the consistency of positioning error within the localization region. Within a volume of 380 mm by 270 mm by 240 mm covered by 16 digital magnetic sensors, the average positioning error obtained from the proposed algorithm is around 10 mm and the average orientation error is around 12°. |
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| AbstractList | Magnetic localization provides a feasible way to estimate the position and orientation of the wireless capsule endoscopy embedded with a permanent magnet. However, the magnetic localization suffers from the drifting effect from magnetic noises and the uncertain initial guess during the optimization. In this paper, a localization system with noise cancellation is proposed to reduce the drifting effect of the geomagnetic noise and obtain the initial guess in a simple and effective way. Compared to the prior arts, the proposed system is able to achieve a lower positioning and orientation error under the same system configuration and makes it possible for the patient to move around while wearing the localization system. Besides, the proposed algorithm improves the consistency of positioning error within the localization region. Within a volume of 380 mm by 270 mm by 240 mm covered by 16 digital magnetic sensors, the average positioning error obtained from the proposed algorithm is around 10 mm and the average orientation error is around 12°. |
| Author | Shao, Guoliang Tang, Yuchao Guo, Yong-Xin Dai, Qiqi Tang, Lin |
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| References | bao (ref10) 2014 ref24 ref12 ref23 ref15 ref14 ref20 ref11 geng (ref13) 2015 ref22 ref21 ref2 ref1 ref17 ref16 ref19 chandra (ref8) 2015; 9461 ref18 ref7 ref4 ref3 ref6 ref5 zhou (ref9) 2014 |
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| SubjectTerms | Algorithms Endoscopy Error detection Geomagnetism Localization Magnet tracking system magnetic localization Magnetic sensors Measurement uncertainty Noise measurement Optimization Orientation Permanent magnets Sensor systems sensors array variance-based analysis wireless capsule endoscopy |
| Title | A Novel Passive Magnetic Localization Wearable System for Wireless Capsule Endoscopy |
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