通过时空对数高斯考克斯点过程估计传染病传播速度

arXiv - STAT - Methodology Pub Date : 2024-09-08 DOI:arxiv-2409.05036

Fernando Rodriguez Avellaneda, Jorge Mateu, Paula Moraga

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摘要

了解 COVID-19 等传染病的传播情况对于知情决策和资源分配至关重要。疾病行为的一个重要组成部分是疾病传播的速度，即时间和空间之间的变化速度。在本文中，我们提出了一种时空建模方法来确定传染性疾病的传播速度。我们的方法假定，感染者的地点和时间可被视为一种时空点模式，它是时空对数高斯 Cox 过程的放大。通过采用积分嵌套拉普拉斯近似（INLA）和随机偏微分方程（SPDE）方法，利用快速贝叶斯推理估算了这一过程的强度。最后，可以在特定时间绘制速度的方向和大小图，以更好地研究疾病在整个区域的传播情况。我们通过分析 2020-2021 年大流行期间 COVID-19 在哥伦比亚卡利的传播情况来演示我们的方法。

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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Estimating velocities of infectious disease spread through spatio-temporal log-Gaussian Cox point processes

Understanding the spread of infectious diseases such as COVID-19 is crucial for informed decision-making and resource allocation. A critical component of disease behavior is the velocity with which disease spreads, defined as the rate of change between time and space. In this paper, we propose a spatio-temporal modeling approach to determine the velocities of infectious disease spread. Our approach assumes that the locations and times of people infected can be considered as a spatio-temporal point pattern that arises as a realization of a spatio-temporal log-Gaussian Cox process. The intensity of this process is estimated using fast Bayesian inference by employing the integrated nested Laplace approximation (INLA) and the Stochastic Partial Differential Equations (SPDE) approaches. The velocity is then calculated using finite differences that approximate the derivatives of the intensity function. Finally, the directions and magnitudes of the velocities can be mapped at specific times to examine better the spread of the disease throughout the region. We demonstrate our method by analyzing COVID-19 spread in Cali, Colombia, during the 2020-2021 pandemic.

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arXiv - STAT - Methodology

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