Simulation Study of Autonomous Drive for Active Capsule Endoscopy

Hyeon Cho, Tae Jin Kim, Jae Hong Lee, H. Kim, Jong-Oh Park, Jong Hee Lee, Cheong Lee, Y. Son
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引用次数: 1

Abstract

Recently, external electromagnetic actuation(EMA) system was introduced to control the locomotion of the capsule endoscopy(CE) using magnetic force. EMA system provides the manual user interface to control the system, but inspectors suffered from fatigues due to the long examination time. We proposed an autonomous driving algorithm for the capsule endoscope. The algorithm searched the target point based on the image processing where the capsule should orient, and the steering was automatically manipulated until the capsule oriented the target point. Then, the propulsion was made until the capsule deviated from the target point. In order to verify the feasibility of the algorithm, simulated endoscopic images were acquired from the commercially available endoscopic capsule by using intestine phantom and a linear and rotation motion stage. The driving simulator was tested on the arc-shaped paths having the various curvatures under the various propulsion forces. In the most conditions, the proposed algorithm succeeded in driving autonomously in the given paths. In some conditions, having a large curvature and a large propulsion, the target point was missed, but scanning algorithm for the missed target point may overcome this problem. In conclusion, the proposed algorithm could be utilized in the active capsule endoscope system and provide the autonomous driving mode in the capsule endoscopy without additional sensors or devices.
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主动胶囊内窥镜自动驾驶仿真研究
近年来,引入外部电磁驱动(EMA)系统,利用磁力控制胶囊内窥镜(CE)的运动。EMA系统提供手动用户界面来控制系统,但由于检查时间长,检查员容易疲劳。提出了一种胶囊内窥镜的自动驾驶算法。该算法在图像处理的基础上搜索出胶囊定位的目标点,并自动进行转向操作,直到胶囊定位到目标点。然后继续推进,直到太空舱偏离目标点。为了验证该算法的可行性,利用肠幻影和线性旋转运动平台从市售的内镜胶囊中获得模拟内镜图像。在不同推力作用下,对具有不同曲率的弧形路径进行了仿真试验。在大多数情况下,该算法在给定的路径上成功地实现了自动驾驶。在某些曲率大、推力大的情况下,目标点会丢失,而丢失目标点的扫描算法可以克服这一问题。综上所述,该算法可用于主动式胶囊内窥镜系统,在不需要额外传感器或设备的情况下提供胶囊内窥镜的自动驾驶模式。
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