Calibration-free structured-light-based 3D scanning system in laparoscope for robotic surgery

IF 2.8 Q3 ENGINEERING, BIOMEDICAL

Healthcare Technology Letters Pub Date : 2024-03-08 DOI:10.1049/htl2.12083

Ryo Furukawa, Elvis Chen, Ryusuke Sagawa, Shiro Oka, Hiroshi Kawasaki

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引用次数: 0

Abstract

Accurate 3D shape measurement is crucial for surgical support and alignment in robotic surgery systems. Stereo cameras in laparoscopes offer a potential solution; however, their accuracy in stereo image matching diminishes when the target image has few textures. Although stereo matching with deep learning has gained significant attention, supervised learning requires a large dataset of images with depth annotations, which are scarce for laparoscopes. Thus, there is a strong demand to explore alternative methods for depth reconstruction or annotation for laparoscopes. Active stereo techniques are a promising approach for achieving 3D reconstruction without textures. In this study, a 3D shape reconstruction method is proposed using an ultra-small patterned projector attached to a laparoscopic arm to address these issues. The pattern projector emits a structured light with a grid-like pattern that features node-wise modulation for positional encoding. To scan the target object, multiple images are taken while the projector is in motion, and the relative poses of the projector and a camera are auto-calibrated using a differential rendering technique. In the experiment, the proposed method is evaluated by performing 3D reconstruction using images obtained from a surgical robot and comparing the results with a ground-truth shape obtained from X-ray CT.

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用于机器人手术的腹腔镜无校准结构光三维扫描系统

精确的三维形状测量对于机器人手术系统的手术支持和对准至关重要。腹腔镜中的立体相机提供了一种潜在的解决方案；然而，当目标图像纹理较少时，其立体图像匹配的准确性就会降低。虽然利用深度学习进行立体图像匹配已获得极大关注，但监督学习需要大量带有深度注释的图像数据集，而腹腔镜却缺乏这种数据集。因此，人们强烈要求探索腹腔镜深度重建或注释的替代方法。主动立体技术是实现无纹理三维重建的一种很有前景的方法。本研究提出了一种三维形状重建方法，利用腹腔镜臂上的超小型图案投影仪来解决这些问题。图案投影仪发射的结构光具有网格状图案，其特点是通过节点调制进行位置编码。为了扫描目标物体，在投影仪运动时拍摄多幅图像，并使用差分渲染技术自动校准投影仪和摄像头的相对位置。在实验中，通过使用从手术机器人获取的图像进行三维重建，并将结果与从 X 射线 CT 获取的地面真实形状进行比较，对所提出的方法进行了评估。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Healthcare Technology Letters Health Professions-Health Information Management

CiteScore

6.10

自引率

4.80%

发文量

审稿时长

22 weeks

期刊介绍： Healthcare Technology Letters aims to bring together an audience of biomedical and electrical engineers, physical and computer scientists, and mathematicians to enable the exchange of the latest ideas and advances through rapid online publication of original healthcare technology research. Major themes of the journal include (but are not limited to): Major technological/methodological areas: Biomedical signal processing Biomedical imaging and image processing Bioinstrumentation (sensors, wearable technologies, etc) Biomedical informatics Major application areas: Cardiovascular and respiratory systems engineering Neural engineering, neuromuscular systems Rehabilitation engineering Bio-robotics, surgical planning and biomechanics Therapeutic and diagnostic systems, devices and technologies Clinical engineering Healthcare information systems, telemedicine, mHealth.