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Perturbation-evoked potentials can be classified from single-trial EEG

Jonas C. Ditz, Andreas Schwarz, Gernot Müller-Putz

2020Journal of Neural Engineering16 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: Loss of balance control can have serious consequences on interaction between humans and machines as well as the general well-being of humans. Perceived balance perturbations are always accompanied by a specific cortical activation, the so-called perturbation-evoked potential (PEP). In this study, we investigate the possibility to classify PEPs from ongoing EEG. APPROACH: Fifteen healthy subjects were exposed to seated whole-body perturbations. Each participant performed 120 trials; they were rapidly tilted to the right and left, 60 times respectively. MAIN RESULTS: We achieved classification accuracies of more than 85% between PEPs and rest EEG using a window-based classification approach. Different window lengths and electrode layouts were compared. We were able to achieve excellent classification performance (87.6 ± 8.0% accuracy) by using a short window length of 200 ms and a minimal electrode layout consisting of only the Cz electrode. The peak classification accuracy coincides in time with the strongest component of PEPs, called N1. SIGNIFICANCE: We showed that PEPs can be discriminated against ongoing EEG with high accuracy. These findings can contribute to the development of a system that can detect balance perturbations online.

Topics & Concepts

ElectroencephalographyBalance (ability)Computer sciencePerturbation (astronomy)Pattern recognition (psychology)Artificial intelligenceWindow (computing)Support vector machineAudiologyPsychologyNeurosciencePhysicsMedicineOperating systemQuantum mechanicsEEG and Brain-Computer InterfacesFunctional Brain Connectivity StudiesBalance, Gait, and Falls Prevention
Perturbation-evoked potentials can be classified from single-trial EEG | Litcius