基于非计划群体最短路径选择机制的街道封锁应对Covid-19病例决策方法

2022 2nd International Conference on Digital Futures and Transformative Technologies (ICoDT2) Pub Date : 2022-05-24 DOI:10.1109/ICoDT255437.2022.9787478

Tahira Sadaf, S. A. Khan, Usman Qamar

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引用次数: 0

摘要

像covid-19这样的传染病综合征属于公共卫生领域，需要及时作出决定并迅速采取行动加以解决。对于这些疾病，随着频繁的社交聚会，传播呈指数级增长，因此控制covid-19浪潮的直接策略是立即封锁covid-19感染区。本文将街道网络的概念与最短路径算法如最小生成树(MST)相结合，定义了一种方法来调查报告的COVID-19病例与相关街道之间的相关性，以便对未规划的殖民地采取更好的封锁策略。地理空间表示已用于随后的模式组成，以确定需要封锁的特定街道。结果表明，MST通过评估封锁计划的明确关注领域提供了更好的解决方案。

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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A Decision Making Approach for Street Lockdown to Cope with Covid-19 Cases by Using Shortest Path Selection Mechanism for Unplanned Colonies

Infectious disease syndrome like covid-19 falls under the Public health domain and needs to be addressed with timely decisions and rapid actions. For such diseases, the dispersal becomes exponential with frequent social gatherings, therefore the immediate strategy, to control the surging waves of covid-19, was to impose immediate lockdown of COVID-19 infected zones. In this paper, the concept of street networks has been incorporated with shortest path algorithm e.g. minimum spanning tree (MST) to define an approach to investigate the correlation between reported COVID-19 cases and relevant streets in order to adopt better lockdown strategy for unplanned colonies. Geo-spatial representation has been used for subsequent composition of patterns to identify the particular streets for locked down. Results show that MST provides better solution by evaluating explicit areas of concern for lockdown plans.

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2022 2nd International Conference on Digital Futures and Transformative Technologies (ICoDT2)

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