Identifying ordinal similarities at different temporal scales

Luciano Zunino, Xavier Porte, Miguel C. Soriano

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Abstract

This study implements the permutation Jensen–Shannon distance as a metric for discerning ordinal patterns and similarities across multiple temporal scales in time series data. Initially, we present a numerically controlled analysis to validate the multiscale capabilities of this method. Subsequently, we apply our methodology to a complex photonic system, showcasing its practical utility in a real-world scenario. Our findings suggest that this approach is a powerful tool for identifying the precise temporal scales at which two distinct time series exhibit ordinal similarity. Given its robustness, we anticipate that this method could be widely applicable across various scientific disciplines, offering a new lens through which to analyze time series data.
Original languageEnglish
Article number1016
Number of pages15
JournalEntropy
Volume26
Issue number12
DOIs
Publication statusPublished - 24 Nov 2024

Keywords

  • time series
  • symbolic analysis
  • ordinal patterns
  • permutation entropy
  • Jensen–Shannon divergence
  • permutation Jensen–Shannon distance
  • multiscale analysis
  • ordinal similarity
  • chaotic semiconductor laser
  • delayed optical feedback

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