Automatic Assessment of Infant Face and Upper-Body Symmetry as Early Signs of Torticollis

2023 IEEE 17th International Conference on Automatic Face and Gesture Recognition (FG) Pub Date : 2022-10-26 DOI:10.1109/FG57933.2023.10042719

Michael Wan, Xiaofei Huang, Bethany Tunik, S. Ostadabbas

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引用次数: 2

Abstract

We apply computer vision pose estimation techniques developed expressly for the data-scarce infant domain to the study of torticollis, a common condition in infants for which early identification and treatment is critical. Specifically, we use a combination of facial landmark and body joint estimation techniques designed for infants to estimate a range of geometric measures pertaining to face and upper body symmetry, drawn from an array of sources in the physical therapy and ophthal-mology research literature in torticollis. We gauge performance with a range of metrics and show that the estimates of most these geometric measures are successful, yielding strong to very strong Spearman's $p$ correlation with ground truth values. Furthermore, we show that these estimates, derived from pose estimation neural networks designed for the infant domain, cleanly outperform estimates derived from more widely known networks designed for the adult domain11Code and data available at https://github.com/ostadabbas/Infant-Upper-Body-Postural-Symmetry..

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婴儿面部和上半身对称作为斜颈早期症状的自动评估

我们将计算机视觉姿态估计技术应用于数据稀缺的婴儿领域，用于研究斜颈，这是婴儿的一种常见疾病，早期识别和治疗至关重要。具体来说，我们结合了面部标志和身体关节估计技术，为婴儿设计，以估计一系列与面部和上半身对称有关的几何测量，这些测量来自斜颈物理治疗和眼科研究文献中的一系列来源。我们用一系列指标来衡量性能，并表明大多数这些几何度量的估计是成功的，产生与基础真值强到非常强的Spearman's $p$相关性。此外，我们表明，这些估计来自为婴儿领域设计的姿态估计神经网络，明显优于为成人领域设计的更广为人知的网络估计。

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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2023 IEEE 17th International Conference on Automatic Face and Gesture Recognition (FG)

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