The fine-grained localization of clinicians in the operating room (OR) is a key component to design the new generation of OR support systems. Computer vision models for person pixel-based segmentation and body-keypoints detection are needed to better understand the clinical activities and the spatial layout of the OR. This is challenging, not only because OR images are very different from traditional vision datasets, but also because data and annotations are hard to collect and generate in the OR due to privacy concerns. To address these concerns, we first study how joint person pose estimation and instance segmentation can be performed on low resolutions images from 1x to 12x. Second, to address the domain shift and the lack of annotations, we propose a novel unsupervised domain adaptation method, called \emph{AdaptOR}, to adapt a model from an \emph{in-the-wild} labeled source domain to a statistically different unlabeled target domain. We propose to exploit explicit geometric constraints on the different augmentations of the unlabeled target domain image to generate accurate pseudo labels, and using these pseudo labels to train the model on high- and low-resolution OR images in a \emph{self-training} framework. Furthermore, we propose \emph{disentangled feature normalization} to handle the statistically different source and target domain data. Extensive experimental results with detailed ablation studies on the two OR datasets \emph{MVOR+} and \emph{TUM-OR-test} show the effectiveness of our approach against strongly constructed baselines, especially on the low-resolution privacy-preserving OR images. Finally, we show the generality of our method as a semi-supervised learning (SSL) method on the large-scale \emph{COCO} dataset, where we achieve comparable results with as few as \textbf{1\%} of labeled supervision against a model trained with 100\% labeled supervision.


翻译:操作室( OR) 临床医师的细微本地化 { { OR) 是设计新一代 OR 支持系统的关键组成部分 。 需要为个人像素分解和正键点检测建立计算机视觉模型, 以便更好地了解临床活动和OR的空间布局 。 这具有挑战性, 不仅因为 OR 图像与传统视觉数据集非常不同, 而且在 ORC 中很难收集和生成数据和说明 。 为了解决这些关注, 我们首先研究 如何在 1x 至 12x 的低分辨率图像上进行联合人构成估计和实例分割 。 其次, 要解决域变换和缺少说明, 我们建议一种新型的无监督域调适的模型适应方法, 从 emph{ in- wild} 标签源域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域, 将我们用低位域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域内的数据,, 和我们用数据训练数据,, 我们用低域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域内,,,,,我们用训练,我们用训练,,我们用数据, 底,我们用数据,,我们用数据,,,,,,,,,我训练一个高域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域域

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