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The original ideas on GPA was introduced by Rosa, Sharma and Valdivia, 1999 \cite{Rosa99}. Usually GPA is applied for spatio-temporal pattern analysis in physics and environmental sciences operating on time-series and images.
\itemize Relation to other methods▼
\itemize References▼
\itemize External Links▼
By connecting all vectors using a Delaunay triangulation criterium it is possible to characterize gradient asymetries computing the so-called
▲{\bf Calculation}
▲By connecting all vectors using a Delaunay triangulation criterium it is possible to characterize gradient asymetries computing the so-called \textit{gradient asymmetry coefficient}, that has been defined as:
\begin{equation}
G_A=\frac{|N_C-N_V|}{N_V},
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For a complex extended pattern (matrix of amplitudes of a spatio-temporal pattern) composed by locally asymmetric fluctuations, $
G_{A}$ is nonzero, defining different classes of irregular fluctuation patterns (1/f noise, chaotic, reactive-diffusive, etc).
Besides $G_{A}$ other measurements (called
▲{\bf Relation to other methods}
When GPA is conjugated with wavelet analysis, then the method is called {\it Gradient Spectral Analysis}, usually applied to short time series analysis \cite{rosa08}) ▼
▲When GPA is conjugated with wavelet analysis, then the method is called
▲{\bf References}
\bibitem{rosa99} R. R. Rosa, A. S. Sharma and J. Valdivia, {\em Int. J. Mod. Phys. C \/} {\bf 10}, 147 (1999).
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\bibitem{rosa08} R.R.Rosa et al., {\em Advances in Space Research} {\bf 42}, 844 (2008), doi:10.1016/j.asr.2007.08.015.
▲{\bf External Links}
Lab for Computing and Applied Mathematics
(MATLAB code for Gradient Spectral Analysis).
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