SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W202246508> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W202246508 endingPage "222" @default.
W202246508 startingPage "181" @default.
W202246508 abstract "One very important topic in climatology, meteorology, and related fields is the detailed understanding of extremes in a changing climate. There is broad consensus that the most hazardous effects of climate change are due to a potential increase (in frequency and/or intensity) of extreme weather and climate events. Extreme events are by definition rare, but they can have a significant impact on people and countries in the affected regions. Here an extreme event is defined in terms of the non-Gaussian tail (occasionally also called a weather or climate regime) of the data’s probability density function (PDF), as opposed to the definition in extreme value theory, where the statistics of time series maxima (and minima) in a given time interval are studied. The non-Gaussian approach used here allows for a dynamical view of extreme events in weather and climate, going beyond the solely mathematical arguments of extreme value theory. Because weather and climate risk assessment depends on knowing the tails of PDFs, understanding the statistics and dynamics of extremes has become an important objective in climate research. Traditionally, stochastic models are extensively used to study climate variability because they link vastly different time and spatial scales (multi-scale interactions). However, in the past the focus of stochastic climate modeling hasn’t been on extremes. Only in recent years new tools that make use of advanced stochastic theory have evolved to evaluate the statistics and dynamics of extreme events. One theory attributes extreme anomalies to stochastically forced dynamics, where, to model nonlinear interactions, the strength of the stochastic forcing depends on the flow itself (multiplicative noise). This closure assumption follows naturally from the general form of the equations of motion. Because stochastic theory makes clear and testable predictions about non-Gaussian variability, the multiplicative noise hypothesis can be verified by analyzing the detailed non-Gaussian statistics of atmospheric and oceanic variability. This chapter discusses the theoretical framework, observational evidence, and related developments in stochastic modeling of weather and climate extremes." @default.
W202246508 created "2016-06-24" @default.
W202246508 creator A5015604093 @default.
W202246508 date "2012-09-07" @default.
W202246508 modified "2023-10-09" @default.
W202246508 title "Stochastic Models of Climate Extremes: Theory and Observations" @default.
W202246508 cites W1500657154 @default.
W202246508 cites W1523631876 @default.
W202246508 cites W1969243712 @default.
W202246508 cites W1974650392 @default.
W202246508 cites W1977076064 @default.
W202246508 cites W1978815659 @default.
W202246508 cites W1986381373 @default.
W202246508 cites W1992576600 @default.
W202246508 cites W1994064426 @default.
W202246508 cites W1997883802 @default.
W202246508 cites W2004622071 @default.
W202246508 cites W2008173481 @default.
W202246508 cites W2017508804 @default.
W202246508 cites W2018621601 @default.
W202246508 cites W2022043944 @default.
W202246508 cites W2028990747 @default.
W202246508 cites W2032558547 @default.
W202246508 cites W2033192122 @default.
W202246508 cites W2038041031 @default.
W202246508 cites W2038792348 @default.
W202246508 cites W2039543068 @default.
W202246508 cites W2046128064 @default.
W202246508 cites W2050967086 @default.
W202246508 cites W2053402652 @default.
W202246508 cites W2053842523 @default.
W202246508 cites W2063314384 @default.
W202246508 cites W2064000876 @default.
W202246508 cites W2064986618 @default.
W202246508 cites W2069664287 @default.
W202246508 cites W2075271559 @default.
W202246508 cites W2082859738 @default.
W202246508 cites W2084774980 @default.
W202246508 cites W2085856887 @default.
W202246508 cites W2087892850 @default.
W202246508 cites W2091567346 @default.
W202246508 cites W2097035762 @default.
W202246508 cites W2107546949 @default.
W202246508 cites W2110808717 @default.
W202246508 cites W2111948917 @default.
W202246508 cites W2114716654 @default.
W202246508 cites W2114730696 @default.
W202246508 cites W2116346457 @default.
W202246508 cites W2119535600 @default.
W202246508 cites W2120769463 @default.
W202246508 cites W2121653040 @default.
W202246508 cites W2125179975 @default.
W202246508 cites W2126881376 @default.
W202246508 cites W2131070146 @default.
W202246508 cites W2131826279 @default.
W202246508 cites W2131957523 @default.
W202246508 cites W2133454950 @default.
W202246508 cites W2138505851 @default.
W202246508 cites W2139139723 @default.
W202246508 cites W2140936327 @default.
W202246508 cites W2158870666 @default.
W202246508 cites W2160935536 @default.
W202246508 cites W2161573452 @default.
W202246508 cites W2167197920 @default.
W202246508 cites W2169447972 @default.
W202246508 cites W2173835935 @default.
W202246508 cites W2177746544 @default.
W202246508 cites W2178916036 @default.
W202246508 cites W2239401199 @default.
W202246508 cites W265274872 @default.
W202246508 cites W2889425232 @default.
W202246508 cites W2950627632 @default.
W202246508 cites W3103362336 @default.
W202246508 cites W3143310843 @default.
W202246508 cites W323536346 @default.
W202246508 cites W4231021340 @default.
W202246508 cites W4234011924 @default.
W202246508 cites W4236154753 @default.
W202246508 cites W4252028749 @default.
W202246508 cites W4256557379 @default.
W202246508 cites W4299551239 @default.
W202246508 doi "https://doi.org/10.1007/978-94-007-4479-0_7" @default.
W202246508 hasPublicationYear "2012" @default.
W202246508 type Work @default.
W202246508 sameAs 202246508 @default.
W202246508 citedByCount "10" @default.
W202246508 countsByYear W2022465082014 @default.
W202246508 countsByYear W2022465082015 @default.
W202246508 countsByYear W2022465082016 @default.
W202246508 countsByYear W2022465082017 @default.
W202246508 countsByYear W2022465082018 @default.
W202246508 countsByYear W2022465082020 @default.
W202246508 countsByYear W2022465082021 @default.
W202246508 countsByYear W2022465082023 @default.
W202246508 crossrefType "book-chapter" @default.
W202246508 hasAuthorship W202246508A5015604093 @default.
W202246508 hasConcept C105795698 @default.
W202246508 hasConcept C111368507 @default.