Development of Camera built-in Stethoscope Device for AR-Based Auscultation Training Simulator

Yota Sekiguchi, T. Nakaguchi, Torakazu Muratake, K. Miura, Naoko Kawada, Yuichiro Yoshimura, Shoichi Ito, M. Asahina, M. Tanabe
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Abstract

: Current auscultatory training is constructed by using simulated patients (SPs) and auscultatory training mannequins. Through this method can perform training with various biological sounds, it has several disadvantages: communication between patients and doc-tors is inconvenient in the training; lack of reality; movement and installation are difficult. We have proposed the system called EARS (Educational Augmented Reality auscultation System) which can reproduce cardiovascular and pulmonary sounds to SPs by using augmented reality technology. This system makes it possible to train medical interviews and auscultatory techniques to SPs. Conventional EARS has disadvantages that installation is complicated, limited to use of sitting position only, and malfunction may occur due to blocking of infrared light by occlusion. In this research, we produced stethoscope device integrating camera, infrared light source, synchronization circuit, wired voice communication circuit, OLED (Organic Light Emitting Diode) panel. We also propose a method to detect the position of stethoscope in any posture of SPs. That make the new system easier to install and reduces the restriction on the posture. By evaluating the operational stability and positional detection accuracy comparing with the conventional EARS system, it is confirmed that the proposed system has significantly improved performance.
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ar听诊训练模拟器内置摄像头听诊器的研制
目前的听诊训练是通过模拟病人(SPs)和听诊训练假人来构建的。通过这种方法可以用各种生物声音进行训练,但有几个缺点:在训练中患者和医生之间的交流不方便;缺乏现实性;移动和安装都很困难。我们提出了一种叫做EARS(教育增强现实听诊系统)的系统,它可以通过增强现实技术向SPs再现心血管和肺部的声音。该系统使SPs的医疗访谈和听诊技术培训成为可能。传统EARS的缺点是安装复杂,仅限于使用坐姿,并且可能由于遮挡遮挡红外光而发生故障。在本研究中,我们制作了集成了摄像头、红外光源、同步电路、有线语音通信电路、OLED(有机发光二极管)面板的听诊器装置。我们还提出了一种检测听诊器在任何姿势下的位置的方法。这使得新系统更容易安装,并减少了对姿势的限制。通过对其运行稳定性和位置检测精度的比较,验证了该系统的性能有明显提高。
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