ABC

ABC Approximation

Age Group_Uncategorized

Asymptotic Dependence

Asymptotically Independent

automatic-update

B01=Dipak K. Dey

B01=Jun Yan

Block Maxima

Block Maxima Method

Category1=Non-Fiction

Category=JHB

Category=KCH

Category=KCHS

Category=PBT

Composite Likelihood Approach

Composite Likelihoods

Conditional Quantile

COP=United Kingdom

Copula Model

Delivery_Pre-order

dependence

distribution

Distribution Function

eq_business-finance-law

eq_isMigrated=2

eq_non-fiction

eq_society-politics

Extremal Coefficient

Extremal Index

generalised

generalized

GEV Distribution

GEV Model

GP Distribution

Gpd Parameter

Language_English

max

Max Stable Distribution

Max Stable Processes

Modeling Tail Dependence

multivariate

Multivariate Extremes

Negative Log Return

PA=Temporarily unavailable

pareto

Poisson Point Process

Price_€50 to €100

processes

PS=Active

Quantile Regression

softlaunch

stable

tail

Tail Dependence

Extreme Value Modeling and Risk Analysis

Name: Extreme Value Modeling and Risk Analysis
Brand: Taylor & Francis Ltd
SKU: 9780367737399
Price: 56.99 EUR
Availability: InStock

★★★★★

English

Extreme Value Modeling and Risk Analysis: Methods and Applications presents a broad overview of statistical modeling of extreme events along with the most recent methodologies and various applications. The book brings together background material and advanced topics, eliminating the need to sort through the massive amount of literature on the subject.

After reviewing univariate extreme value analysis and multivariate extremes, the book explains univariate extreme value mixture modeling, threshold selection in extreme value analysis, and threshold modeling of non-stationary extremes. It presents new results for block-maxima of vine copulas, develops time series of extremes with applications from climatology, describes max-autoregressive and moving maxima models for extremes, and discusses spatial extremes and max-stable processes. The book then covers simulation and conditional simulation of max-stable processes; inference methodologies, such as composite likelihood, Bayesian inference, and approximate Bayesian computation; and inferences about extreme quantiles and extreme dependence. It also explores novel applications of extreme value modeling, including financial investments, insurance and financial risk management, weather and climate disasters, clinical trials, and sports statistics.

Risk analyses related to extreme events require the combined expertise of statisticians and domain experts in climatology, hydrology, finance, insurance, sports, and other fields. This book connects statistical/mathematical research with critical decision and risk assessment/management applications to stimulate more collaboration between these statisticians and specialists.

€56.99

Quantity

ABCABC ApproximationAge Group_UncategorizedAsymptotic DependenceAsymptotically Independentautomatic-updateB01=Dipak K. DeyB01=Jun YanBlock MaximaBlock Maxima MethodCategory1=Non-FictionCategory=JHBCategory=KCHCategory=KCHSCategory=PBTComposite Likelihood ApproachComposite LikelihoodsConditional QuantileCOP=United KingdomCopula ModelDelivery_Pre-orderdependencedistributionDistribution Functioneq_business-finance-laweq_isMigrated=2eq_non-fictioneq_society-politicsExtremal CoefficientExtremal IndexgeneralisedgeneralizedGEV DistributionGEV ModelGP DistributionGpd ParameterLanguage_EnglishmaxMax Stable DistributionMax Stable ProcessesModeling Tail DependencemultivariateMultivariate ExtremesNegative Log ReturnPA=Temporarily unavailableparetoPoisson Point ProcessPrice_€50 to €100processesPS=ActiveQuantile RegressionsoftlaunchstabletailTail Dependence

Will deliver when available.

Product Details

Weight: 1000g
Dimensions: 156 x 234mm
Publication Date: 18 Dec 2020
Publisher: Taylor & Francis Ltd
Publication City/Country: GB
Language: English
ISBN13: 9780367737399

About

Jun Yan is a professor in the Department of Statistics at the University of Connecticut. He was previously an assistant professor at the University of Iowa. He received a Ph.D. in statistics from the University of Wisconsin–Madison. His research interests include spatial extremes, copulas, survival analysis, estimating equations, clustered data analysis, statistical computing, and applications in public health and environment.

Dipak K. Dey is a Board of Trustees Distinguished Professor in the Department of Statistics and associate dean of the College of Liberal Arts and Sciences at the University of Connecticut. He is an elected fellow of the International Society for Bayesian Analysis and American Association for the Advancement of Science, an elected member of the Connecticut Academy of Arts and Sciences and International Statistical Institute, and a fellow of the American Statistical Association and Institute of Mathematical Statistics. Dr. Dey is a co-editor and co-author of several books, including the Chapman & Hall/CRC Bayesian Modeling in Bioinformatics and A First Course in Linear Model Theory. His research interests include Bayesian analysis, bioinformatics, biostatistics, computational statistics, decision theory, environmental statistics, multivariate analysis, optics, reliability and survival analysis, statistical shape analysis, and statistical genetics.

Extreme Value Modeling and Risk Analysis

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