IEEE Access (Jan 2023)

Speech Enhancement Algorithm Based on a Convolutional Neural Network Reconstruction of the Temporal Envelope of Speech in Noisy Environments

  • Rahim Soleymanpour,
  • Mohammad Soleymanpour,
  • Anthony J. Brammer,
  • Michael T. Johnson,
  • Insoo Kim

DOI
https://doi.org/10.1109/ACCESS.2023.3236242
Journal volume & issue
Vol. 11
pp. 5328 – 5336

Abstract

Read online

Temporal modulation processing is a promising technique for improving the intelligibility and quality of speech in noise. We propose a speech enhancement algorithm that constructs the temporal envelope (TEV) in the time-frequency domain by means of an embedded convolutional neural network (CNN). To accomplish this, the input speech signals are divided into sixteen parallel frequency bands (subbands) with bandwidths approximating 1.5 times that of auditory filters. The corrupted TEVs in each subband are extracted and then fed to the 1-dimensional CNN (1-D CNN) model to restore the TEVs distorted by noise. The method is evaluated using 2,700 words from nine different talkers, which are mixed with speech-spectrum shaped random noise (SSN), and babble noise, at different signal-to-noise ratios. The Short-time Objective Intelligibility (STOI) and Perceptual Evaluation of Speech Quality (PESQ) metrics are used to evaluate the performance of the 1-D CNN algorithm. Results suggest that the 1-D CNN model improves STOI scores on average by 27% and 34% for SSN and babble noise, respectively, and PESQ scores on average by 19% and 18%, respectively, compared to unprocessed speech. The 1-D CNN model is also shown to outperform a conventional TEV-based speech enhancement algorithm.

Keywords