Litcius/Paper detail

Hidden data recovery using reservoir computing: Adaptive network model and experimental brain signals

Artem Badarin, Andrey Andreev, Vladimir Klinshov, Vladimir Antipov, Alexander E. Hramov

2024Chaos An Interdisciplinary Journal of Nonlinear Science12 citationsDOI

Abstract

The problem of hidden data recovery is crucial in various scientific and technological fields, particularly in neurophysiology, where experimental data can often be incomplete or corrupted. We investigate the application of reservoir computing (RC) to recover hidden data from both model Kuramoto network system and real neurophysiological signals (EEG). Using an adaptive network of Kuramoto phase oscillators, we generated and analyzed macroscopic signals to understand the efficiency of RC in hidden signal recovery compared to linear regression (LR). Our findings indicate that RC significantly outperforms LR, especially in scenarios with reduced signal information. Furthermore, when applied to real EEG data, RC achieved more accurate signal reconstruction than traditional spline interpolation methods. These results underscore RC's potential for enhancing data recovery in neurophysiological studies, offering a robust solution to improve data integrity and reliability, which is essential for accurate scientific analysis and interpretation.

Topics & Concepts

Reservoir computingComputer scienceArtificial intelligenceArtificial neural networkRecurrent neural networkNeural Networks and Reservoir ComputingNonlinear Dynamics and Pattern FormationAdvanced Memory and Neural Computing