A real-world noise removal with wavelet speech feature

Abstract

Real-world noise signals are non-stationary, and these signals are a mixture of more than one non-stationary noise signal. Most of the conventional speech enhancement algorithms (SEAs) focus primarily on a single noise corrupted speech signal, and it is far from real-world environments. In this article, we discuss speech enhancement in real-world environments with a new speech feature. The novelty of this article is three-fold, (1) The proposed model analyzed in real-world environments. (2) The proposed model uses a discrete wavelet transform (DWT) coefficients as input features. (3) The proposed Deep Denoising Autoencoder (DDAE) designed experimentally. The result of the proposed feature compares with conventional speech features like FFT-Amplitude, Log-Magnitude, Mel frequency cepstral coefficients (MFCCs), and the Gammatone filter cepstral coefficients (GFCCs). The performance of the proposed method compared with conventional speech enhancement methods. The enhanced signal evaluated with speech quality measures, like, perceptual evaluation speech quality (PESQ), weighted spectral slope (WSS), and Log-likelihood ratio (LLR). Similarly, speech intelligibility measured with short-time objective intelligibility (STOI). The results show that the proposed SEA model with the DWT feature improves quality and intelligibility in all real-world environmental Signal-to-Noise ratio (SNR) conditions.