Related papers: Mining Citywide Dengue Spread Patterns in Singapore Through Hotspot Dynamics from Open Web Data

Mining Citywide Dengue Spread Patterns in Singapore Through Hotspot Dynamics from Open Web Data

URL: http://arxiv.org/abs/2601.12856v2
Date: Fri, 23 Jan 2026 06:07:53 GMT
Title: Mining Citywide Dengue Spread Patterns in Singapore Through Hotspot Dynamics from Open Web Data
Authors: Liping Huang, Gaoxi Xiao, Stefan Ma, Hechang Chen, Shisong Tang, Flora Salim,
Abstract summary: Dengue continues to pose a persistent public health challenge in urban areas, particularly in tropical regions such as Singapore.<n>This study introduces a novel framework that uncovers latent transmission links between urban regions, mined directly from publicly available dengue case data.
Score: 13.39497094708001
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Dengue, a mosquito-borne disease, continues to pose a persistent public health challenge in urban areas, particularly in tropical regions such as Singapore. Effective and affordable control requires anticipating where transmission risks are likely to emerge so that interventions can be deployed proactively rather than reactively. This study introduces a novel framework that uncovers and exploits latent transmission links between urban regions, mined directly from publicly available dengue case data. Instead of treating cases as isolated reports, we model how hotspot formation in one area is influenced by epidemic dynamics in neighboring regions. While mosquito movement is highly localized, long-distance transmission is often driven by human mobility, and in our case study, the learned network aligns closely with commuting flows, providing an interpretable explanation for citywide spread. These hidden links are optimized through gradient descent and used not only to forecast hotspot status but also to verify the consistency of spreading patterns, by examining the stability of the inferred network across consecutive weeks. Case studies on Singapore during 2013-2018 and 2020 show that four weeks of hotspot history are sufficient to achieve an average F-score of 0.79. Importantly, the learned transmission links align with commuting flows, highlighting the interpretable interplay between hidden epidemic spread and human mobility. By shifting from simply reporting dengue cases to mining and validating hidden spreading dynamics, this work transforms open web-based case data into a predictive and explanatory resource. The proposed framework advances epidemic modeling while providing a scalable, low-cost tool for public health planning, early intervention, and urban resilience.

Related papers

MiCA: A Mobility-Informed Causal Adapter for Lightweight Epidemic Forecasting [7.767240728772616]
Mobility data are noisy, indirect, and difficult to integrate reliably with disease records.<n>We propose the Mobility-Informed Causal Adapter (MiCA), a lightweight module for epidemic forecasting.<n>MiCA infers mobility relations through causal discovery and integrates them into temporal forecasting models.
arXiv Detail & Related papers (2026-01-16T08:41:06Z)
Epidemiology-informed Graph Neural Network for Heterogeneity-aware Epidemic Forecasting [46.63739322178277]
Recent studies have demonstrated the strong potential of of-temporal neural networks (STGNNs) in extracting heterogeneous-temporal epidemic patterns. HeatGNN learns epidemiology-informed locations embedding different locations that reflect their own transmission mechanisms over time. HeatGNN outperforms various strong baselines of HeatHeat on different sizes of Heat.
arXiv Detail & Related papers (2024-11-26T12:29:45Z)
The impact of spatio-temporal travel distance on epidemics using an interpretable attention-based sequence-to-sequence model [2.203043417301343]
Findings illuminate a compelling relationship between the volume of travelers at different distance ranges and the trajectories of COVID-19. We unveil the geographical variations in the influence of population movement at different travel distances on the dynamics of epidemic spread.
arXiv Detail & Related papers (2022-05-26T08:24:35Z)
Exploring the Scope and Potential of Local Newspaper-based Dengue Surveillance in Bangladesh [1.181206257787103]
Dengue fever has been considered to be one of the global public health problems of the twenty-first century. It is so prevalent in such regions that enforcing a granular level of surveillance is quite impossible. It is crucial to explore an alternative cost-effective solution that can provide updates of the ongoing situation in a timely manner.
arXiv Detail & Related papers (2021-07-07T18:48:15Z)
Early Detection of COVID-19 Hotspots Using Spatio-Temporal Data [66.70036251870988]
The Centers for Disease Control and Prevention (CDC) has worked with other federal agencies to identify counties with increasing coronavirus 2019 (CO-19) incidence (hotspots) This paper presents a sparse model for early detection of COVID-19 hotspots (at the county level) in the United States. Deep neural networks are introduced to enhance the model's representative power while still enjoying the interpretability of the kernel.
arXiv Detail & Related papers (2021-05-31T19:28:17Z)
Policy-Aware Mobility Model Explains the Growth of COVID-19 in Cities [36.94575237918065]
Predictions must take into account non-pharmaceutical interventions to slow the spread of coronavirus. We show that by incorporating intra-city mobility and policy adoption into a novel metapopulation SEIR model, we can accurately predict complex COVID-19 growth patterns in U.S. cities.
arXiv Detail & Related papers (2021-02-21T07:39:17Z)
C-Watcher: A Framework for Early Detection of High-Risk Neighborhoods Ahead of COVID-19 Outbreak [54.39837683016444]
C-Watcher aims at screening every neighborhood in a target city and predicting infection risks, prior to the spread of COVID-19 from epicenters to the city. C-Watcher collects large-scale long-term human mobility data from Baidu Maps, then characterizes every residential neighborhood in the city using a set of features based on urban mobility patterns. We carried out extensive experiments on C-Watcher using the real-data records in the early stage of COVID-19 outbreaks.
arXiv Detail & Related papers (2020-12-22T17:02:54Z)
STELAR: Spatio-temporal Tensor Factorization with Latent Epidemiological Regularization [76.57716281104938]
We develop a tensor method to predict the evolution of epidemic trends for many regions simultaneously. STELAR enables long-term prediction by incorporating latent temporal regularization through a system of discrete-time difference equations. We conduct experiments using both county- and state-level COVID-19 data and show that our model can identify interesting latent patterns of the epidemic.
arXiv Detail & Related papers (2020-12-08T21:21:47Z)
Steering a Historical Disease Forecasting Model Under a Pandemic: Case of Flu and COVID-19 [75.99038202534628]
We propose CALI-Net, a neural transfer learning architecture which allows us to'steer' a historical disease forecasting model to new scenarios where flu and COVID co-exist. Our experiments demonstrate that our approach is successful in adapting a historical forecasting model to the current pandemic.
arXiv Detail & Related papers (2020-09-23T22:35:43Z)
Cross-lingual Transfer Learning for COVID-19 Outbreak Alignment [90.12602012910465]
We train on Italy's early COVID-19 outbreak through Twitter and transfer to several other countries. Our experiments show strong results with up to 0.85 Spearman correlation in cross-country predictions.
arXiv Detail & Related papers (2020-06-05T02:04:25Z)
Quantifying the Effects of Contact Tracing, Testing, and Containment Measures in the Presence of Infection Hotspots [18.227721607607183]
Multiple lines of evidence strongly suggest that infection hotspots, where a single individual infects many others, play a key role in the transmission dynamics of COVID-19. We introduce a temporal point process modeling framework that specifically represents visits to the sites where individuals get in contact and infect each other. Under our model, the number of infections caused by an infectious individual naturally emerges to be overdispersed.
arXiv Detail & Related papers (2020-04-15T17:18:32Z)

This list is automatically generated from the titles and abstracts of the papers in this site.