Cyclocopula Technique to Study The Relationship Between Two Cyclostationary Time Series With Fractional Brownian Motion Errors

Abstract: Detection of relationship between two time series is so important in environmental and hydrological studies. Several parametric and non-parametric approaches can be applied to detect relationships. These techniques are usually sensitive to stationarity assumptions. In this research, a new copula- based method is introduced to detect the relationship between two cylostationary time series with fractional Brownian motion (fBm) errors. The numerical studies verify the performance of the introduced approach.

“…8). For future studies, a comparative analysis of the ensemble [22,23], tree-based [24], ANFIS [25], deep learning [26], artificial neural network [27] support vector machine [28], hybrid [29,30], clustering and classification [31], and other advanced statistics methods [32,33] is proposed for an insight into an optimal model with higher accuracy. APPENDIX Consider the nonlinear system adapted from [13] as follows.…”

Nonlinear control of Covid-19 pandemic based on the SIRD model

“…8). For future studies, a comparative analysis of the ensemble [22,23], tree-based [24], ANFIS [25], deep learning [26], artificial neural network [27] support vector machine [28], hybrid [29,30], clustering and classification [31], and other advanced statistics methods [32,33] is proposed for an insight into an optimal model with higher accuracy. APPENDIX Consider the nonlinear system adapted from [13] as follows.…”

Nonlinear control of Covid-19 pandemic based on the SIRD model

Using Periodic Copula to Assess the Relationship Between Two Meteorological Cyclostationary Time Series Datasets