Frontiers in Human Neuroscience (May 2024)

Decoding imagined speech with delay differential analysis

  • Vinícius Rezende Carvalho,
  • Vinícius Rezende Carvalho,
  • Eduardo Mazoni Andrade Marçal Mendes,
  • Aria Fallah,
  • Terrence J. Sejnowski,
  • Terrence J. Sejnowski,
  • Terrence J. Sejnowski,
  • Lindy Comstock,
  • Claudia Lainscsek,
  • Claudia Lainscsek

DOI
https://doi.org/10.3389/fnhum.2024.1398065
Journal volume & issue
Vol. 18

Abstract

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Speech decoding from non-invasive EEG signals can achieve relatively high accuracy (70–80%) for strictly delimited classification tasks, but for more complex tasks non-invasive speech decoding typically yields a 20–50% classification accuracy. However, decoder generalization, or how well algorithms perform objectively across datasets, is complicated by the small size and heterogeneity of existing EEG datasets. Furthermore, the limited availability of open access code hampers a comparison between methods. This study explores the application of a novel non-linear method for signal processing, delay differential analysis (DDA), to speech decoding. We provide a systematic evaluation of its performance on two public imagined speech decoding datasets relative to all publicly available deep learning methods. The results support DDA as a compelling alternative or complementary approach to deep learning methods for speech decoding. DDA is a fast and efficient time-domain open-source method that fits data using only few strong features and does not require extensive preprocessing.

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