The fluctuation-dissipation theorem (FDT) has been proposed as a method of calculating the mean response of the atmosphere to small external perturbations. This paper explores the application of the theory under time and space constraints that approximate realistic conditions. To date, most applications of the theory in the climate context used univariate, low-dimensional-state representations of the climate system and an arbitrarily long sample size. The authors explore high-dimensional multivariate FDT operators and the lower bounds of sample size needed to construct skillful operators. It is shown that the skill of the operator depends on the selection of variables and features representing the climate system and that these features chan...
Climate studies deal with changes in the statistics rather than in the exact state of the Earth syst...
Three statistic methods [generalized equilibrium feedback analysis (GEFA), linear inverse modeling (...
The behaviour of modern climate system simulators is controlled by numerous parameters. By matching ...
One of the main challenges in climate research is the estimation of the climate response to external...
A linear response theory of systems of interest in atmospheric and climate dynamics taking fully int...
The fluctuation-dissipation theorem (FDT) has been proposed as a method of calculating the response ...
A signal of small climate change in either the real atmosphere or numerical simulation of it tends t...
Climate variability has significant human impact but is difficult to model and predict. Recent theor...
This study investigates the mechanisms by which short-timescale perturbations to atmospheric process...
It has been shown that lag-covariance based statistical measures, suggested by the Fluctuation Diss...
Three multivariate statistical methods to estimate the influence of SST or boundary forcing on the a...
For simple analysis of stochastic climate models the ocean is often forced with a statistical atmosp...
The Earth’s climate system is a classical example of a multiscale, multiphysics dynamical system wit...
One of the major issues concerning the study of a dynamical system is the response to perturbations....
The statistics of high-frequency climate variability in observations and reanalyses are markedly non...
Climate studies deal with changes in the statistics rather than in the exact state of the Earth syst...
Three statistic methods [generalized equilibrium feedback analysis (GEFA), linear inverse modeling (...
The behaviour of modern climate system simulators is controlled by numerous parameters. By matching ...
One of the main challenges in climate research is the estimation of the climate response to external...
A linear response theory of systems of interest in atmospheric and climate dynamics taking fully int...
The fluctuation-dissipation theorem (FDT) has been proposed as a method of calculating the response ...
A signal of small climate change in either the real atmosphere or numerical simulation of it tends t...
Climate variability has significant human impact but is difficult to model and predict. Recent theor...
This study investigates the mechanisms by which short-timescale perturbations to atmospheric process...
It has been shown that lag-covariance based statistical measures, suggested by the Fluctuation Diss...
Three multivariate statistical methods to estimate the influence of SST or boundary forcing on the a...
For simple analysis of stochastic climate models the ocean is often forced with a statistical atmosp...
The Earth’s climate system is a classical example of a multiscale, multiphysics dynamical system wit...
One of the major issues concerning the study of a dynamical system is the response to perturbations....
The statistics of high-frequency climate variability in observations and reanalyses are markedly non...
Climate studies deal with changes in the statistics rather than in the exact state of the Earth syst...
Three statistic methods [generalized equilibrium feedback analysis (GEFA), linear inverse modeling (...
The behaviour of modern climate system simulators is controlled by numerous parameters. By matching ...