Quantification of Fractional Dynamical Stability of EEG Signals as a Bio-Marker for Cognitive Motor Control

  • Reed E
  • Bogdan P
  • Pequito S
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Abstract

Assessing the stability of biological system models has aided in uncovering a plethora of new insights in genetics, neuroscience, and medicine. In this paper, we focus on analyzing the stability of neurological signals, including electroencephalogram (EEG) signals. Interestingly, spatiotemporal discrete-time linear fractional-order systems (DTLFOS) have been shown to accurately and efficiently represent a variety of neurological and physiological signals. Here, we leverage the conditions for stability of DTLFOS to assess a real-world EEG data set. By analyzing the stability of EEG signals during movement and rest tasks, we provide evidence of the usefulness of the quantification of stability as a bio-marker for cognitive motor control.

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Reed, E. A., Bogdan, P., & Pequito, S. (2022). Quantification of Fractional Dynamical Stability of EEG Signals as a Bio-Marker for Cognitive Motor Control. Frontiers in Control Engineering, 2. https://doi.org/10.3389/fcteg.2021.787747

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