Salīdzināt metodes
Apskatiet izvēlētās metodes blakus; rindas, kas atšķiras, ir izceltas.
| Grindžera koeficientu pārbaude× | Rekurences kvantitatīvās analīzes (RQA) metode× | Pārneses entropija× | |
|---|---|---|---|
| Nozare≠ | Ekonometrija | Kompleksās sistēmas | Cēloņsakarību secināšana |
| Saime≠ | Regression model | Machine learning | Machine learning |
| Izcelsmes gads≠ | 1969 | 2007 | 2000 |
| Autors≠ | Clive W. J. Granger | Marwan, Romano, Thiel & Kurths | Thomas Schreiber |
| Tips≠ | Time-series predictive causality test | Nonlinear time-series characterization | Non-parametric information-theoretic measure |
| Pirmavots≠ | Granger, C. W. J. (1969). Investigating Causal Relations by Econometric Models and Cross-spectral Methods. Econometrica, 37(3), 424-438. DOI ↗ | Marwan, N., Romano, M. C., Thiel, M., & Kurths, J. (2007). Recurrence plots for the analysis of complex systems. Physics Reports, 438(5–6), 237–329. DOI ↗ | Schreiber, T. (2000). Measuring information transfer. Physical Review Letters, 85(2), 461–464. DOI ↗ |
| Citi nosaukumi | Granger causality test, Granger non-causality test, predictive causality test, Granger Nedensellik Testi | RQA, Recurrence Plot Analysis, Nonlinear Recurrence Analysis, Tekrarlama Kantifikasyon Analizi | Schreiber Information Transfer, Directed Information Flow, Conditional Mutual Information (directed), Transfer Entropisi |
| Saistītās≠ | 5 | 2 | 3 |
| Kopsavilkums≠ | The Granger causality test, introduced by Clive W. J. Granger in 1969, assesses whether the past values of one time series help predict another beyond what the latter's own past already explains. It defines causality in a strictly predictive sense rather than as a structural or physical cause. | Recurrence Quantification Analysis (RQA) is a nonlinear method for characterizing the dynamics of a time series by quantifying the small-scale structure of its recurrence plot. Introduced in its modern, comprehensive form by Marwan, Romano, Thiel, and Kurths in 2007, RQA extracts scalar measures — such as recurrence rate, determinism, laminarity, and Shannon entropy — that capture periodicity, chaos, stationarity, and transitions in complex dynamical systems. | Transfer Entropy (TE) is a non-parametric, information-theoretic measure of directed statistical dependence between two time series, introduced by Thomas Schreiber in 2000. Grounded in Shannon entropy, it quantifies how much information the past of one process Y reduces uncertainty about the next state of another process X, beyond what X's own past already provides. Unlike linear correlation or Granger causality, TE captures nonlinear interactions and requires no model assumptions about the underlying dynamics. |
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