Your search keyword '"Integrated nested laplace approximation"' showing total 6 results

1. Exploring Dengue Dynamics: A Multi-Scale Analysis of Spatio-Temporal Trends in Ibagué, Colombia.

Author

Otero, Julian, Tabares, Alejandra, and Santos-Vega, Mauricio

Subjects

*ARBOVIRUS diseases, *DENGUE, *POPULATION density, *TREND analysis, *REMOTE-sensing images, *FACTOR analysis, *FENITROTHION

Abstract

Our study examines how dengue fever incidence is associated with spatial (demographic and socioeconomic) alongside temporal (environmental) factors at multiple scales in the city of Ibagué, located in the Andean region of Colombia. We used the dengue incidence in Ibagué from 2013 to 2018 to examine the associations with climate, socioeconomic, and demographic factors from the national census and satellite imagery at four levels of local spatial aggregation. We used geographically weighted regression (GWR) to identify the relevant socioeconomic and demographic predictors, and we then integrated them with environmental variables into hierarchical models using integrated nested Laplace approximation (INLA) to analyze the spatio-temporal interactions. Our findings show a significant effect of spatial variables across the different levels of aggregation, including human population density, gas and sewage connection, percentage of woman and children, and percentage of population with a higher education degree. Lagged temporal variables displayed consistent patterns across all levels of spatial aggregation, with higher temperatures and lower precipitation at short lags showing an increase in the relative risk (RR). A comparative evaluation of the models at different levels of aggregation revealed that, while higher aggregation levels often yield a better overall model fit, finer levels offer more detailed insights into the localized impacts of socioeconomic and demographic variables on dengue incidence. Our results underscore the importance of considering macro and micro-level factors in epidemiological modeling, and they highlight the potential for targeted public health interventions based on localized risk factor analyses. Notably, the intermediate levels emerged as the most informative, thereby balancing spatial heterogeneity and case distribution density, as well as providing a robust framework for understanding the spatial determinants of dengue. [ABSTRACT FROM AUTHOR]

Published

2024

2. COVID-19 Data Analysis Using Bayesian Models and Nonparametric Geostatistical Models.

Author

Alvo, Mayer and Mu, Jingrui

Subjects

*COVID-19 pandemic, *BAYESIAN analysis, *COVID-19, *DATA analysis, *INTERVENTION (Federal government)

Abstract

Since December 2019, many statistical spatial–temporal methods have been developed to track and predict the spread of the COVID-19 pandemic. In this paper, we analyzed the COVID-19 dataset which includes the number of biweekly infected cases registered in Ontario from March 2020 to the end of June 2021. We made use of Bayesian Spatial–temporal models and Area-to-point (ATP) and Area-to-area (ATA) Poisson Kriging models. With the Bayesian models, spatial–temporal effects and government intervention effects on infection risk are considered while the ATP Poisson Kriging models are used to display the spread of the pandemic over space. [ABSTRACT FROM AUTHOR]

Published

2023

3. Assessing the Spatial and Spatio-Temporal Distribution of Forest Species via Bayesian Hierarchical Modeling.

Author

de Rivera, Óscar Rodríguez, López-Quílez, Antonio, and Blangiardo, Marta

Subjects

CLIMATE change, PLANT development, FOREST management, PLANT species, REFORESTATION

Abstract

Climatic change is expected to affect forest development in the short term, as well as the spatial distribution of species in the long term. Species distribution models are potentially useful tools for guiding species choices in reforestation and forest management prescriptions to address climate change. The aim of this study is to build spatial and spatio-temporal models to predict the distribution of four different species present in the Spanish Forest Inventory. We have compared the different models and showed how accounting for dependencies in space and time affect the relationship between species and environmental variables. [ABSTRACT FROM AUTHOR]

Published

2018

4. "Exact" and Approximate Methods for Bayesian Inference: Stochastic Volatility Case Study.

Author

Shapovalova, Yuliya

Subjects

*LAPLACE distribution, *MARKOV chain Monte Carlo, *STOCHASTIC models

Abstract

We conduct a case study in which we empirically illustrate the performance of different classes of Bayesian inference methods to estimate stochastic volatility models. In particular, we consider how different particle filtering methods affect the variance of the estimated likelihood. We review and compare particle Markov Chain Monte Carlo (MCMC), RMHMC, fixed-form variational Bayes, and integrated nested Laplace approximation to estimate the posterior distribution of the parameters. Additionally, we conduct the review from the point of view of whether these methods are (1) easily adaptable to different model specifications; (2) adaptable to higher dimensions of the model in a straightforward way; (3) feasible in the multivariate case. We show that when using the stochastic volatility model for methods comparison, various data-generating processes have to be considered to make a fair assessment of the methods. Finally, we present a challenging specification of the multivariate stochastic volatility model, which is rarely used to illustrate the methods but constitutes an important practical application. [ABSTRACT FROM AUTHOR]

Published

2021

5. Bayesian Analysis of Population Health Data.

Author

Młynarczyk, Dorota, Armero, Carmen, Gómez-Rubio, Virgilio, Puig, Pedro, and Vázquez-Polo, Francisco-José

Subjects

*BAYESIAN analysis, *ISCHEMIC stroke, *POPULATION health, *SURVIVAL analysis (Biometry), *SPATIAL variation, *MULTILEVEL models, *RANDOM effects model

Abstract

The analysis of population-wide datasets can provide insight on the health status of large populations so that public health officials can make data-driven decisions. The analysis of such datasets often requires highly parameterized models with different types of fixed and random effects to account for risk factors, spatial and temporal variations, multilevel effects and other sources on uncertainty. To illustrate the potential of Bayesian hierarchical models, a dataset of about 500,000 inhabitants released by the Polish National Health Fund containing information about ischemic stroke incidence for a 2-year period is analyzed using different types of models. Spatial logistic regression and survival models are considered for analyzing the individual probabilities of stroke and the times to the occurrence of an ischemic stroke event. Demographic and socioeconomic variables as well as drug prescription information are available at an individual level. Spatial variation is considered by means of region-level random effects. [ABSTRACT FROM AUTHOR]

Published

2021

6. Spatio-Temporal Modeling of Zika and Dengue Infections within Colombia.

Author

Martínez-Bello DA, López-Quílez A, and Torres Prieto A

Subjects

Cities, Colombia epidemiology, Humans, Risk, Spatio-Temporal Analysis, Dengue epidemiology, Disease Outbreaks, Epidemiological Monitoring, Models, Statistical, Zika Virus Infection epidemiology

Abstract

The aim of this study is to estimate the parallel relative risk of Zika virus disease (ZVD) and dengue using spatio-temporal interaction effects models for one department and one city of Colombia during the 2015⁻2016 ZVD outbreak. We apply the integrated nested Laplace approximation (INLA) for parameter estimation, using the epidemiological week (EW) as a time measure. At the departmental level, the best model showed that the dengue or ZVD risk in one municipality was highly associated with risk in the same municipality during the preceding EWs, while at the city level, the final model selected established that the high risk of dengue or ZVD in one census sector was highly associated not only with its neighboring census sectors in the same EW, but also with its neighboring sectors in the preceding EW. The spatio-temporal models provided smoothed risk estimates, credible risk intervals, and estimation of the probability of high risk of dengue and ZVD by area and time period. We explore the intricacies of the modeling process and interpretation of the results, advocating for the use of spatio-temporal models of the relative risk of dengue and ZVD in order to generate highly valuable epidemiological information for public health decision making.

Published

2018