Related papers: Deep Learning Approach to Forecasting COVID-19 Cases in Residential Buildings of Hong Kong Public Housing Estates: The Role of Environment and Sociodemographics

Deep Learning Approach to Forecasting COVID-19 Cases in Residential Buildings of Hong Kong Public Housing Estates: The Role of Environment and Sociodemographics

URL: http://arxiv.org/abs/2403.15759v1
Date: Sat, 23 Mar 2024 08:22:53 GMT
Title: Deep Learning Approach to Forecasting COVID-19 Cases in Residential Buildings of Hong Kong Public Housing Estates: The Role of Environment and Sociodemographics
Authors: E. Leung, J. Guan, KO. Kwok, CT. Hung, CC. Ching, KC. Chong, CHK. Yam, T. Sun, WH. Tsang, EK. Yeoh, A. Lee,
Abstract summary: The study investigates the complex association between COVID-19 and the studied districts' socioecology. We used a multi-headed hierarchical convolutional neural network to structure the vast array of hierarchically related predictive features. Different sets of factors were found to be linked to the earlier waves of COVID-19 outbreaks compared to the epidemic resurgence of the pandemic.
Score: 0.2545763876632975
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Introduction: The current study investigates the complex association between COVID-19 and the studied districts' socioecology (e.g. internal and external built environment, sociodemographic profiles, etc.) to quantify their contributions to the early outbreaks and epidemic resurgence of COVID-19. Methods: We aligned the analytic model's architecture with the hierarchical structure of the resident's socioecology using a multi-headed hierarchical convolutional neural network to structure the vast array of hierarchically related predictive features representing buildings' internal and external built environments and residents' sociodemographic profiles as model input. COVID-19 cases accumulated in buildings across three adjacent districts in HK, both before and during HK's epidemic resurgence, were modeled. A forward-chaining validation was performed to examine the model's performance in forecasting COVID-19 cases over the 3-, 7-, and 14-day horizons during the two months subsequent to when the model for COVID-19 resurgence was built to align with the forecasting needs in an evolving pandemic. Results: Different sets of factors were found to be linked to the earlier waves of COVID-19 outbreaks compared to the epidemic resurgence of the pandemic. Sociodemographic factors such as work hours, monthly household income, employment types, and the number of non-working adults or children in household populations were of high importance to the studied buildings' COVID-19 case counts during the early waves of COVID-19. Factors constituting one's internal built environment, such as the number of distinct households in the buildings, the number of distinct households per floor, and the number of floors, corridors, and lifts, had the greatest unique contributions to the building-level COVID-19 case counts during epidemic resurgence.

Related papers

Analyzing the Variations in Emergency Department Boarding and Testing the Transferability of Forecasting Models across COVID-19 Pandemic Waves in Hong Kong: Hybrid CNN-LSTM approach to quantifying building-level socioecological risk [0.2985164765599213]
Emergency department's (ED) boarding has been linked to poor patient outcomes and health system performance. Yet, effective forecasting models is rare before COVID-19, lacking during the peri-COVID era. Here, a hybrid convolutional neural network (CNN)-Long short-term memory (LSTM) model was applied to public-domain data sourced from Hong Kong's Hospital Authority, Department of Health, and Housing Authority.
arXiv Detail & Related papers (2024-03-17T11:48:40Z)
A case study of university student networks and the COVID-19 pandemic using a social network analysis approach in halls of residence [0.32985979395737786]
The aim of our research is to describe the structural behaviour of students in university residences during the COVID-19 pandemic. The leadership on the university residence was measured using centrality measures. Students with higher social reputations experience higher levels of pandemic contagion in relation to COVID-19 infection.
arXiv Detail & Related papers (2024-02-14T14:57:25Z)
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)
Modeling the geospatial evolution of COVID-19 using spatio-temporal convolutional sequence-to-sequence neural networks [48.7576911714538]
Portugal was the country in the world with the largest incidence rate, with 14-days incidence rates per 100,000 inhabitants in excess of 1000. Despite its importance, accurate prediction of the geospatial evolution of COVID-19 remains a challenge.
arXiv Detail & Related papers (2021-05-06T15:24:00Z)
Forecasting COVID-19 Counts At A Single Hospital: A Hierarchical Bayesian Approach [59.318136981032]
We consider the problem of forecasting the daily number of hospitalized COVID-19 patients at a single hospital site. We develop several candidate hierarchical Bayesian models which directly capture the count nature of data. We demonstrate our approach on public datasets for 8 hospitals in Massachusetts, U.S.A. and 10 hospitals in the United Kingdom.
arXiv Detail & Related papers (2021-04-14T11:58:54Z)
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)
Inter-Series Attention Model for COVID-19 Forecasting [23.58411106491221]
We develop a new neural forecasting model, called Attention Crossing Time Series (textbfACTS), that makes forecasts via comparing patterns across time series obtained from multiple regions. Among 13 out of 18 testings including forecasting newly confirmed cases, hospitalizations and deaths, textbfACTS outperforms all the leading COVID-19 forecasters highlighted by CDC.
arXiv Detail & Related papers (2020-10-25T00:11:49Z)
COVID-19 Pandemic Outbreak in the Subcontinent: A data-driven analysis [0.8057708414390126]
COVID-19 virus emerged in late December 2019 in Wuhan city, Hubei, China. Numerous studies claim that the subcontinent could remain in the worst affected region by the COVID-19. This paper uses publicly available epidemiological data of Bangladesh, India, and Pakistan to estimate the reproduction numbers.
arXiv Detail & Related papers (2020-08-22T10:40:17Z)
Understanding the temporal evolution of COVID-19 research through machine learning and natural language processing [66.63200823918429]
The outbreak of the novel coronavirus disease 2019 (COVID-19), caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has been continuously affecting human lives and communities around the world. We used multiple data sources, i.e., PubMed and ArXiv, and built several machine learning models to characterize the landscape of current COVID-19 research. Our findings confirm the types of research available in PubMed and ArXiv differ significantly, with the former exhibiting greater diversity in terms of COVID-19 related issues.
arXiv Detail & Related papers (2020-07-22T18:02:39Z)
Effectiveness and Compliance to Social Distancing During COVID-19 [72.94965109944707]
We use a detailed set of mobility data to evaluate the impact that stay-at-home orders had on the spread of COVID-19 in the US. We show that there is a unidirectional Granger causality, from the median percentage of time spent daily at home to the daily number of COVID-19-related deaths with a lag of 2 weeks.
arXiv Detail & Related papers (2020-06-23T03:36:19Z)

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

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.