Inflation-restriction exact sequence: Difference between revisions

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Also visit my web site ... hostgator1centcoupon.info In time series analysis, the cross-spectrum is used as part of a frequency domain analysis of the cross correlation or cross covariance between two time series.

Definition

Let $(X_{t},Y_{t})$ represent a pair of stochastic processes that are jointly wide sense stationary with covariance functions $\gamma _{xx}$ and $\gamma _{yy}$ and cross-covariance function $\gamma _{xy}$ . Then the cross spectrum $\Gamma _{xy}$ is defined as the Fourier transform of $\gamma _{xy}$ ^[1]

\Gamma _{xy}(f)={\mathcal {F}}\{\gamma _{xy}\}(f)=\sum _{\tau =-\infty }^{\infty }\,\gamma _{xy}(\tau )\,e^{-2\,\pi \,i\,\tau \,f}.

The cross-spectrum has representations as a decomposition into (i) its real part (co-spectrum) and its imaginary part (quadrature spectrum)

\Gamma _{xy}(f)=\Lambda _{xy}(f)+i\Psi _{xy}(f),

and (ii) in polar coordinates

\Gamma _{xy}(f)=A_{xy}(f)\,e^{i\phi _{xy}(f)}.

Here, the amplitude spectrum $A_{xy}$ is given by

A_{xy}(f)=(\Lambda _{xy}(f)^{2}+\Psi _{xy}(f)^{2})^{\frac {1}{2}},

and the phase spectrum $\Phi _{xy}$ given by

{\begin{cases}\tan ^{-1}(\Psi _{xy}(f)/\Lambda _{xy}(f))&{\text{if }}\Psi _{xy}(f)\neq 0\wedge \Lambda _{xy}(f)\neq 0\\0&{\text{if }}\Psi _{xy}(f)=0{\text{ and }}\Lambda _{xy}(f)>0\\\pm \pi &{\text{if }}\Psi _{xy}(f)=0{\text{ and }}\Lambda _{xy}(f)<0\\\pi /2&{\text{if }}\Psi _{xy}(f)>0{\text{ and }}\Lambda _{xy}(f)=0\\-\pi /2&{\text{if }}\Psi _{xy}(f)<0{\text{ and }}\Lambda _{xy}(f)=0\\\end{cases}}

Squared coherency spectrum

The squared coherency spectrum is given by

\kappa _{xy}(f)={\frac {A_{xy}^{2}}{\Gamma _{xx}(f)\Gamma _{yy}(f)}},

which expresses the amplitude spectrum in dimensionless units.

References

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[1]

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+{{Technical|date=April 2011}}
+In [[time series analysis]], the '''cross-spectrum''' is used as part of a [[frequency domain]] analysis of the [[cross correlation]] or [[cross covariance]] between two time series.
+== Definition ==
+Let <math>(X_t,Y_t)</math> represent a pair of [[stochastic process]]es that are jointly [[wide sense stationary]] with covariance functions <math>\gamma_{xx}</math> and <math>\gamma_{yy}</math> and [[Cross-correlation#Time_series_analysis|cross-covariance function]] <math>\gamma_{xy}</math>. Then the cross spectrum <math>\Gamma_{xy}</math> is defined as the [[Fourier transform]] of <math>\gamma_{xy}</math> <ref>{{Cite book
+| publisher = Cambridge Univ Pr
+| isbn = 0-521-01230-9
+| last = von Storch
+| first = H.
+| coauthors = F. W Zwiers
+| title = Statistical analysis in climate research
+| year = 2001
+}}</ref>
+: <math>
+\Gamma_{xy}(f)= \mathcal{F}\{\gamma_{xy}\}(f) = \sum_{\tau=-\infty}^\infty \,\gamma_{xy}(\tau) \,e^{-2\,\pi\,i\,\tau\,f} .
+</math>
+The cross-spectrum has representations as a decomposition into (i) its real part (co-spectrum) and its imaginary part (quadrature spectrum)
+: <math>
+\Gamma_{xy}(f)= \Lambda_{xy}(f) + i \Psi_{xy}(f) ,
+</math>
+and (ii) in polar coordinates
+: <math>
+\Gamma_{xy}(f)= A_{xy}(f)  \,e^{i \phi_{xy}(f) } .
+</math>
+Here, the amplitude spectrum <math>A_{xy}</math> is given by
+: <math>A_{xy}(f)= (\Lambda_{xy}(f)^2 + \Psi_{xy}(f)^2)^\frac{1}{2} ,</math>
+and the phase spectrum <math>\Phi_{xy}</math> given by
+: <math>\begin{cases}
+  \tan^{-1} (  \Psi_{xy}(f) / \Lambda_{xy}(f)  )     & \text{if } \Psi_{xy}(f) \ne 0 \wedge \Lambda_{xy}(f) \ne 0 \\
+     & \text{if } \Psi_{xy}(f) = 0 \text{ and } \Lambda_{xy}(f) > 0 \\
+  \pm \pi & \text{if } \Psi_{xy}(f) = 0 \text{ and } \Lambda_{xy}(f) < 0 \\
+  \pi/2 & \text{if } \Psi_{xy}(f) > 0 \text{ and } \Lambda_{xy}(f) = 0 \\
+  -\pi/2 & \text{if } \Psi_{xy}(f) < 0 \text{ and } \Lambda_{xy}(f) = 0 \\
+\end{cases}</math>
+== Squared coherency spectrum ==
+The squared [[Coherence (signal processing)|coherency spectrum]] is given by
+: <math>
+\kappa_{xy}(f)= \frac{A_{xy}^2}{ \Gamma_{xx}(f) \Gamma_{yy}(f)} ,
+</math>
+which expresses the amplitude spectrum in dimensionless units.
+==See also==
+* [[Cross-correlation#Time_series_analysis|Cross-correlation]]
+* [[Spectral_density#Power_spectral_density|Power spectrum]]
+* [[Scaled Correlation]]
+==References==
+<references/>
+[[Category:Frequency domain analysis]]
+[[Category:Multivariate time series analysis]]

Inflation-restriction exact sequence: Difference between revisions

Revision as of 23:08, 31 October 2012

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Squared coherency spectrum

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