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Singular Value Decomposition Entropy for Complex Data Analysis.

Jose Alvarez-Ramirez1, Monica Meraz1, Eduardo Rodriguez1

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|December 18, 2025
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Summary
This summary is machine-generated.

Singular Value Decomposition (SVD) entropy offers a robust method for analyzing complex data patterns, overcoming limitations of traditional entropy measures. This review highlights its recent applications in detecting nonlinearity and analyzing time series data.

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Area of Science:

  • Complex Systems Analysis
  • Information Theory
  • Data Science

Background:

  • Entropy-based methods are crucial for analyzing complex systems, characterizing fractality, time reversibility, and nonlinearity.
  • Traditional methods often struggle to capture intricate patterns, necessitating advanced analytical techniques.
  • Shannon entropy is useful but limited for short data; approximate, sample, and permutation entropies have parameter-dependence issues.

Purpose of the Study:

  • To review recent applications of Singular Value Decomposition (SVD) entropy across diverse scientific fields.
  • To explore the potential of SVD entropy in detecting nonlinearity within complex datasets.
  • To investigate the utility of SVD entropy in transfer entropy analysis for time series.

Main Methods:

  • Utilizing Singular Value Decomposition (SVD) entropy as a framework for assessing pattern diversity and dataset dimensionality.
  • Comparing SVD entropy with other entropy-based methods like Shannon, approximate, sample, and permutation entropies.
  • Analyzing time series data to evaluate nonlinearity detection and transfer entropy capabilities.

Main Results:

  • SVD entropy provides a valuable index for pattern diversity and approximate dimensionality.
  • Recent studies demonstrate SVD entropy's effectiveness in various application domains.
  • The method shows promise for enhancing nonlinearity detection and time series analysis.

Conclusions:

  • SVD entropy presents a flexible and powerful tool for complex data analysis, particularly for pattern diversity and dimensionality assessment.
  • Its application extends to advanced analyses like nonlinearity detection and transfer entropy, offering advantages over traditional methods.
  • Further exploration of SVD entropy in diverse fields is warranted to fully leverage its capabilities.