Entropy-Based Methods for Motor Fault Detection: A Review

Aguayo-Tapia, Sarahi; Avalos-Almazan, Gerardo; Rangel-Magdaleno, Jose de Jesus

doi:10.3390/e26040299

Entropy

2024

DOI: 10.3390/e26040299

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Entropy-Based Methods for Motor Fault Detection: A Review

Sarahi Aguayo-Tapia,

Gerardo Avalos-Almazan,

Jose de Jesus Rangel-Magdaleno

Abstract: In the signal analysis context, the entropy concept can characterize signal properties for detecting anomalies or non-representative behaviors in fiscal systems. In motor fault detection theory, entropy can measure disorder or uncertainty, aiding in detecting and classifying faults or abnormal operation conditions. This is especially relevant in industrial processes, where early motor fault detection can prevent progressive damage, operational interruptions, or potentially dangerous situations. The study of mo… Show more

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2024

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Cited by 1 publication

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Applications of Entropy in Data Analysis and Machine Learning: A Review

Sepúlveda-Fontaine,

Amigó

2024

Entropy

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Since its origin in the thermodynamics of the 19th century, the concept of entropy has also permeated other fields of physics and mathematics, such as Classical and Quantum Statistical Mechanics, Information Theory, Probability Theory, Ergodic Theory and the Theory of Dynamical Systems. Specifically, we are referring to the classical entropies: the Boltzmann–Gibbs, von Neumann, Shannon, Kolmogorov–Sinai and topological entropies. In addition to their common name, which is historically justified (as we briefly describe in this review), another commonality of the classical entropies is the important role that they have played and are still playing in the theory and applications of their respective fields and beyond. Therefore, it is not surprising that, in the course of time, many other instances of the overarching concept of entropy have been proposed, most of them tailored to specific purposes. Following the current usage, we will refer to all of them, whether classical or new, simply as entropies. In particular, the subject of this review is their applications in data analysis and machine learning. The reason for these particular applications is that entropies are very well suited to characterize probability mass distributions, typically generated by finite-state processes or symbolized signals. Therefore, we will focus on entropies defined as positive functionals on probability mass distributions and provide an axiomatic characterization that goes back to Shannon and Khinchin. Given the plethora of entropies in the literature, we have selected a representative group, including the classical ones. The applications summarized in this review nicely illustrate the power and versatility of entropy in data analysis and machine learning.

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Applications of Entropy in Data Analysis and Machine Learning: A Review

Sepúlveda-Fontaine,

Amigó

2024

Entropy

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show abstract

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Entropy-Based Methods for Motor Fault Detection: A Review

Cited by 1 publication

References 117 publications

Applications of Entropy in Data Analysis and Machine Learning: A Review

Applications of Entropy in Data Analysis and Machine Learning: A Review

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