探索自闭症儿童的注视模式:聚类、可视化和预测

Weiyan Shi, Haihong Zhang, Jin Yang, Ruiqing Ding, YongWei Zhu, Kenny Tsu Wei Choo
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引用次数: 0

摘要

自闭症谱系障碍(ASD)严重影响了儿童的社交和沟通能力,眼动跟踪通常通过识别相关的非典型注视模式作为诊断工具。传统方法需要人工识别注视模式中的兴趣区,从而降低了 ASD 受试者注视行为分析的性能。为了解决这一局限性,我们提出了一种新方法来自动分析 ASD 儿童的注视行为,而且准确性更高。具体来说,我们首先应用并优化了七种聚类算法,对注视点进行自动分组,将 ASD 受试者与发育正常的同龄人进行比较。随后,我们提取了 63 个重要特征来全面描述这些模式。最后,利用这些特征作为先验知识,我们训练了多个预测性机器学习模型,以根据他们的注视行为预测和诊断 ASD。为了评估我们的方法,我们将我们的方法应用于三个ASD数据集。实验和可视化结果证明了聚类算法在分析ASD儿童独特注视模式方面的改进。此外,这些预测性机器学习模型在自动构建注视点特征用于ASD诊断领域达到了最先进的预测性能(81%$ AUC)。我们的代码可在(url{https://github.com/username/projectname}.
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring Gaze Pattern in Autistic Children: Clustering, Visualization, and Prediction
Autism Spectrum Disorder (ASD) significantly affects the social and communication abilities of children, and eye-tracking is commonly used as a diagnostic tool by identifying associated atypical gaze patterns. Traditional methods demand manual identification of Areas of Interest in gaze patterns, lowering the performance of gaze behavior analysis in ASD subjects. To tackle this limitation, we propose a novel method to automatically analyze gaze behaviors in ASD children with superior accuracy. To be specific, we first apply and optimize seven clustering algorithms to automatically group gaze points to compare ASD subjects with typically developing peers. Subsequently, we extract 63 significant features to fully describe the patterns. These features can describe correlations between ASD diagnosis and gaze patterns. Lastly, using these features as prior knowledge, we train multiple predictive machine learning models to predict and diagnose ASD based on their gaze behaviors. To evaluate our method, we apply our method to three ASD datasets. The experimental and visualization results demonstrate the improvements of clustering algorithms in the analysis of unique gaze patterns in ASD children. Additionally, these predictive machine learning models achieved state-of-the-art prediction performance ($81\%$ AUC) in the field of automatically constructed gaze point features for ASD diagnosis. Our code is available at \url{https://github.com/username/projectname}.
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