Computation of changes in explosive weather systems during the 20th century

Authors

DOI:

https://doi.org/10.21914/anziamj.v58i0.11784

Keywords:

instability, stochastic models, filtering, atmospheric flows

Abstract

We present a new computational technique for extracting growing weather modes of different frequencies and growth rates from instantaneous six hourly observed atmospheric data. The methodology is applied to examine the changes in the statistics of growing storms and extreme weather events between the mid and late 20th century. The structures of weather modes in different frequency and growth rate bands are determined from the leading (maximum variance) eigenvectors of the associated covariance matrices. A matrix stochastic model is also fitted to the data, with the associated leading eigenvectors related to the dynamical developments. References
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Author Biography

Stacey Lee Osbrough, CSIRO Oceans and Atmosphere Monash University

Experimental Scientist / PhD student Team: Extreme Weather and Climate Group: Projections, Products and Services, Project: Climate Science Centre, CSIRO Oceans and Atmosphere.

Published

2017-11-27

Issue

Section

Proceedings Computational Techniques and Applications Conference