Graph Neural Network Modeling of Web Search Activity for Real-time Pandemic Forecasting.

Chen Lin, Jianghong Zhou, Jing Zhang, Carl Yang, Eugene Agichtein
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Abstract

The utilization of web search activity for pandemic forecasting has significant implications for managing disease spread and informing policy decisions. However, web search records tend to be noisy and influenced by geographical location, making it difficult to develop large-scale models. While regularized linear models have been effective in predicting the spread of respiratory illnesses like COVID-19, they are limited to specific locations. The lack of incorporation of neighboring areas' data and the inability to transfer models to new locations with limited data has impeded further progress. To address these limitations, this study proposes a novel self-supervised message-passing neural network (SMPNN) framework for modeling local and cross-location dynamics in pandemic forecasting. The SMPNN framework utilizes an MPNN module to learn cross-location dependencies through self-supervised learning and improve local predictions with graph-generated features. The framework is designed as an end-to-end solution and is compared with state-of-the-art statistical and deep learning models using COVID-19 data from England and the US. The results of the study demonstrate that the SMPNN model outperforms other models by achieving up to a 6.9% improvement in prediction accuracy and lower prediction errors during the early stages of disease outbreaks. This approach represents a significant advancement in disease surveillance and forecasting, providing a novel methodology, datasets, and insights that combine web search data and spatial information. The proposed SMPNN framework offers a promising avenue for modeling the spread of pandemics, leveraging both local and cross-location information, and has the potential to inform public health policy decisions.

用于实时流行病预测的网络搜索活动图神经网络模型。
利用网络搜索活动进行大流行病预测对管理疾病传播和为政策决策提供信息具有重要意义。然而,网络搜索记录往往比较嘈杂,而且受地理位置的影响较大,因此很难开发大规模的模型。虽然正则化线性模型在预测 COVID-19 等呼吸道疾病的传播方面很有效,但它们仅限于特定地点。由于没有纳入邻近地区的数据,也无法在数据有限的情况下将模型转移到新的地点,这阻碍了模型的进一步发展。为了解决这些局限性,本研究提出了一种新颖的自监督信息传递神经网络(SMPNN)框架,用于在大流行预测中建立本地和跨地点动态模型。SMPNN 框架利用 MPNN 模块,通过自我监督学习来学习跨地点依赖关系,并利用图生成的特征来改进本地预测。该框架被设计为端到端解决方案,并利用来自英国和美国的 COVID-19 数据与最先进的统计和深度学习模型进行了比较。研究结果表明,在疾病爆发的早期阶段,SMPNN 模型优于其他模型,预测准确率提高了 6.9%,预测误差更低。这种方法提供了一种结合网络搜索数据和空间信息的新方法、数据集和见解,是疾病监测和预测领域的一大进步。所提出的 SMPNN 框架为利用本地和跨地点信息模拟流行病的传播提供了一个前景广阔的途径,并有可能为公共卫生政策决策提供信息。
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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