医学增强现实中三维感知的听觉和视觉-时间距离编码

F. Bork, B. Fuerst, Anja-Katharina Schneider, Francisco Pinto, C. Graumann, Nassir Navab
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引用次数: 27

摘要

图像引导的医疗干预更多地依赖于增强现实(AR)可视化来实现手术导航。目前的系统使用2-D监视器来呈现外部摄像机的视图,这不能提供感兴趣区域的理想3-D位置感知。尽管存在这个问题,但大多数研究都是针对诊断成像数据的直接叠加,只有少数研究试图改善外部相机视图中遮挡结构的感知。本文的重点在于通过在医疗应用的动态多感官AR环境中结合听觉和视觉刺激来提高增强外部摄像机视图的3d感知。我们的方法基于时间距离编码(TDC)和一种主动手术工具,与场景中遮挡的感兴趣的虚拟物体进行交互,以获得对其3d位置的改进感知。用户通过瞄准病人幻影内的虚拟病变进行模拟针活检。实验结果表明,基于tdc的可视化技术显著提高了定位精度,而听觉反馈的加入提高了任务的直观性和完成速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Auditory and Visio-Temporal Distance Coding for 3-Dimensional Perception in Medical Augmented Reality
Image-guided medical interventions more frequently rely on Augmented Reality (AR) visualization to enable surgical navigation. Current systems use 2-D monitors to present the view from external cameras, which does not provide an ideal perception of the 3-D position of the region of interest. Despite this problem, most research targets the direct overlay of diagnostic imaging data, and only few studies attempt to improve the perception of occluded structures in external camera views. The focus of this paper lies on improving the 3-D perception of an augmented external camera view by combining both auditory and visual stimuli in a dynamic multi-sensory AR environment for medical applications. Our approach is based on Temporal Distance Coding (TDC) and an active surgical tool to interact with occluded virtual objects of interest in the scene in order to gain an improved perception of their 3-D location. Users performed a simulated needle biopsy by targeting virtual lesions rendered inside a patient phantom. Experimental results demonstrate that our TDC-based visualization technique significantly improves the localization accuracy, while the addition of auditory feedback results in increased intuitiveness and faster completion of the task.
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