Chaos isn’t always harmful to technology, in fact, it can have several useful applications if it can be detected and identified.
Chaos and its chaotic dynamics are prevalent throughout nature and through manufactured devices and technology. Though chaos is usually considered a negative, something to be removed from systems to ensure their optimal operation, there are circumstances in which chaos can be a benefit and can even have important applications. Hence a growing interest in the detection and classification of chaos in systems.
A new paper published in EPJ B authored by Dagobert Wenkack Liedji and Jimmi Hervé Talla Mbé of the Research unit of Condensed Matter, Electronics and Signal Processing, Department of Physics, University of Dschang, Cameroon, and Godpromesse Kenné, from Laboratoire d’ Automatique et d’Informatique Appliquée, Department of Electrical Engineering, IUT-FV Bandjoun, University of Dschang, Cameroon, proposes using the single nonlinear node delay-based reservoir computer to identify chaotic dynamics.
High Accuracy in Chaotic Classification
In the paper, the authors show that the classification capabilities of this system are robust with an accuracy of over 99 percent. Examining the effect of the length of the time series on the performance of the method they found higher accuracy achieved when the single nonlinear node delay-based reservoir computer was used with short time series.
Several quantifiers have been developed to distinguish chaotic dynamics in the past, prominently the largest Lyapunov exponent (LLE), which is highly reliable and helps display numerical values that help to decide on the dynamical state of the system.
The team overcame issues with the LLE like expense, need for the mathematical modeling of the system, and long processing times by studying several deep learning models finding these models obtained poor classification rates. The exception to this was a large kernel-size convolutional neural network (LKCNN) which could classify chaotic and nonchaotic time series with high accuracy.
Mackey-Glass Delay-Based System for Chaos Classification
Thus, using the Mackey-Glass (MG) delay-based reservoir computer system to classify nonchaotic and chaotic dynamical behaviors, the authors showed the ability of the system to act as an efficient and robust quantifier for classifying non-chaotic and chaotic signals.
They listed the advantages of the system they used as not necessarily requiring the knowledge of the set of equations, instead, describing the dynamics of a system but only data from the system, and the fact that neuromorphic implementation using an analog reservoir computer enables the real-time detection of dynamical behaviors from a given oscillator.
The team concludes that future research will be devoted to deep reservoir computers to explore their performances in classifications of more complex dynamics.
Reference: “Chaos recognition using a single nonlinear node delay-based reservoir computer” by Dagobert Wenkack Liedji, Jimmi Hervé Talla Mbé and Godpromesse Kenné, 27 January 2022, The European Physical Journal B.
DOI: 10.1140/epjb/s10051-022-00280-6
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1 Comment
… there are ways to avoid chaos, but see la vie… kinda was busy reading John Perkins, Confession of an Economic hit man…real Wow…