Space–Time Modelling of Extreme Events

Multivariate extremes and max-stable processes: discussion of the paper by Zhengjun Zhang, A goodness-of-fit test for heavy tailed distributions with unknown parameters and its application to simulated precipitation extremes in the Euro-Mediterranean region, Censored pairwise likelihood-based tests for mixing coefficient of spatial max-mixture models, Modeling nonstationary temperature maxima based on extremal dependence changing with event magnitude, Non-stationary dependence structures for spatial extremes, Latent process modelling of threshold exceedances in hourly rainfall series, Modeling Nonstationary Extreme Dependence With Stationary Max-Stable Processes and Multidimensional Scaling, Approximate Bayesian inference for analysis of spatiotemporal flood frequency data, Anisotropic Brown-Resnick space-time processes: estimation and model assessment, A Bayesian hierarchical model for spatial extremes with multiple durations, Testing for poolability of the space-time autoregressive moving-average model, Statistical post-processing of forecasts for extremes using bivariate Brown-Resnick processes with an application to wind gusts, Extending the Gneiting class for modeling spatially isotropic and temporally symmetric vector random fields, Estimation of spatial max-stable models using threshold exceedances, A Space-Time Skew-t Model for Threshold Exceedances, On the performance of the Bayesian composite likelihood estimation of max-stable processes, Fitting spatial max-mixture processes with unknown extremal dependence class: an exploratory analysis tool, Bayesian modeling of discrete-time point-referenced spatio-temporal data, Local Likelihood Estimation of Complex Tail Dependence Structures, Applied to U.S. Precipitation Extremes, Hierarchical Space-Time Modeling of Asymptotically Independent Exceedances With an Application to Precipitation Data, Geometric ergodicity for some space-time max-stable Markov chains, Simple nonlinear models with rigorous extreme events and heavy tails, Geostatistics of dependent and asymptotically independent extremes, On the measurement and treatment of extremes in time series, Exploration and inference in spatial extremes using empirical basis functions, A spliced gamma-generalized Pareto model for short-term extreme wind speed probabilistic forecasting, Marginal standardization of upper semicontinuous processes. With application to max-stable processes, Editorial: EVA 2019 data competition on spatio-temporal prediction of Red Sea surface temperature extremes, A spatio-temporal model for Red Sea surface temperature anomalies, Spatio-temporal prediction of missing temperature with stochastic Poisson equations. The LC2019 team winning entry for the EVA 2019 data competition, Assessing the risk of disruption of wind turbine operations in Saudi Arabia using Bayesian spatial extremes, Space‒time max-stable models with spectral separability, Factor Copula Models for Replicated Spatial Data, A continuous updating weighted least squares estimator of tail dependence in high dimensions, INLA goes extreme: Bayesian tail regression for the estimation of high spatio-temporal quantiles, The MELBS team winning entry for the EVA2017 competition for spatiotemporal prediction of extreme rainfall using generalized extreme value quantiles, Generalized Additive Models for Exceedances of High Thresholds With an Application to Return Level Estimation for U.S. Wind Gusts, Multivariate modelling of spatial extremes based on copulas, Semiparametric estimation for space-time max-stable processes: an \(F\)-madogram-based approach, A Spatial Markov Model for Climate Extremes, Bayesian Model Averaging Over Tree-based Dependence Structures for Multivariate Extremes, Generalised least squares estimation of regularly varying space-time processes based on flexible observation schemes, A horse race between the block maxima method and the peak-over-threshold approach, Semiparametric estimation for isotropic max-stable space-time processes, Extremes and regular variation, A Hierarchical Max-Infinitely Divisible Spatial Model for Extreme Precipitation, Whittle estimation based on the extremal spectral density of a heavy-tailed random field, Modeling spatial tail dependence with Cauchy convolution processes, Exact simulation of Brown-Resnick random fields at a finite number of locations, A flexible dependence model for spatial extremes, Likelihood estimators for multivariate extremes