Data analysis techniques: Difference between revisions

Revision as of 16:23, 14 February 2010

This page collects information on data analysis techniques used in fusion research.

Temporal analysis

Linear analysis

Correlation
Fourier analysis
Wavelet analysis
Conditional analysis
Probability distribution, Cumulative distribution function (rank)

Non-linear analysis

Bicoherence, bispectrum
Chaos analysis (Strange attractor, Fractal dimension, Mutual information, Lyapunov exponent)
Hilbert-Huang transform

Self-similarity

Rescaled range or Hurst analysis; Structure functions
Waiting times, quiet times ^[1]

Spatial analysis

Most of the techniques listed under 'temporal analysis' can of course be applied to spatial data.

Tomography (cf. TJ-II:Tomography)

Spatio-temporal analysis

Biorthogonal decomposition

Image analysis

Twodimensional Fourier analysis
Twodimensional wavelet analysis
Event detection using thresholding
Optical flow (for movies)

Integrated data analysis

The goal of integrated data analysis is to combine the information from a set of diagnostics providing complementary information in order to recover the best possible reconstruction of the actual state of the system subjected to measurement.

References

↑ R. Sánchez et al., Quiet-time statistics: A tool to probe the dynamics of self-organized-criticality systems from within the strong overlapping regime, Phys. Rev. E 66, 036124 (2002)

[1] R. Sánchez et al., Quiet-time statistics: A tool to probe the dynamics of self-organized-criticality systems from within the strong overlapping regime, Phys. Rev. E 66, 036124 (2002)

[1]

@@ Line 19: / Line 19: @@
 === Self-similarity ===
-* [[:Wikipedia:Rescaled range|Rescaled range]] or Hurst analysis; Structure functions
+* [[:Wikipedia:Rescaled range|Rescaled range]] or [[:Wikipedia:Hurst exponent|Hurst]] analysis; Structure functions
 * Waiting times, quiet times <ref>[http://link.aps.org/doi/10.1103/PhysRevE.66.036124 R. Sánchez et al., ''Quiet-time statistics: A tool to probe the dynamics of self-organized-criticality systems from within the strong overlapping regime'',  Phys. Rev. E '''66''', 036124 (2002)]</ref>

Data analysis techniques: Difference between revisions

Revision as of 16:23, 14 February 2010

Contents

Temporal analysis

Linear analysis

Non-linear analysis

Self-similarity

Spatial analysis

Spatio-temporal analysis

Image analysis

Integrated data analysis

See also

References

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Data analysis techniques: Difference between revisions

Revision as of 16:23, 14 February 2010

Temporal analysis

Linear analysis

Non-linear analysis

Self-similarity

Spatial analysis

Spatio-temporal analysis

Image analysis

Integrated data analysis

See also

References

Navigation menu

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