A flexible spectral modification method based on temporal decomposition and Gaussian mixture model

Nguyen, Binh P.; Akagi, Masato

doi:10.1250/ast.30.170

Cited by 8 publications

(5 citation statements)

References 26 publications

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“…This can yield better fits and smoother formant trajectories. After that, we approximate the modified spectral envelope with a GMM [22]. The GMM parameters are estimated by minimizing a loss function of the observed spectral envelope , and the GMM approximated one expressed by…”

Section: A Spectral Envelope Approximation With Gaussian-markov Modelmentioning

confidence: 99%

Towards Parametric Speech Synthesis Using Gaussian-Markov Model of Spectral Envelope and Wavelet-Based Decomposition of F0

Al-Radhi

Csano

Zainkó

et al. 2022

2022 30th European Signal Processing Conference (EUSIPCO)

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Neural network-based Text-to-Speech has significantly improved the quality of synthesized speech. Prominent methods (e.g., Tacotron2, FastSpeech, FastPitch) usually generate Mel-spectrogram from text and then synthesize speech using vocoder (e.g., WaveNet, WaveGlow, HiFiGAN). Compared with traditional parametric approaches (e.g., STRAIGHT and WORLD), neural vocoder based end-to-end models suffer from slow inference speed, and the synthesized speech is usually not robust and lack of controllability. In this work, we propose a novel updated vocoder, which is a simple signal model to train and easy to generate waveforms. We use the Gaussian-Markov model toward robust learning of spectral envelope and wavelet-based statistical signal processing to characterize and decompose F0 features. It can retain the fine spectral envelope and achieve high controllability of natural speech. The experimental results demonstrate that our proposed vocoder achieves better naturalness of reconstructed speech than the conventional STRAIGHT vocoder, slightly better than WaveNet, and somewhat worse than the WaveRNN.

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Section: A Spectral Envelope Approximation With Gaussian-markov Modelmentioning

confidence: 99%

Towards Parametric Speech Synthesis Using Gaussian-Markov Model of Spectral Envelope and Wavelet-Based Decomposition of F0

Al-Radhi

Csano

Zainkó

et al. 2022

2022 30th European Signal Processing Conference (EUSIPCO)

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“…1). Formants: The frequencies, bandwidths and amplitudes at F1, F2 and F3 were estimated by linear predictive coding (LPC) and spectral Gaussian mixture model based spectra (spectral-GMM) [8]. F1 and F2 were used to produce the vowel space.…”

Section: Feature Extractionmentioning

confidence: 99%

Acoustical Analyses of Tendencies of Intelligibility in Lombard Speech with Different Background Noise Levels

Ngo

Kubo

Morikawa

et al. 2017

Journal of Signal Processing

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This study investigates acoustic variations when producing Lombard speech under the effect of a changing environment to identify adaptive tendencies of intelligibility. Analyses of the acoustic features of duration, F0, formants, spectral tilts and modulation spectrum in a dataset of speech at noise levels of −∞, 66, 72, 78, 84, and 90 dB were carried out. The results show that the recognized tendencies (neutral-Lombard distinction), including lengthening vowel duration, increasing F0, shifting F1 and decreasing spectral tilts (A1-A3) are preserved among Lombard speech produced in backgrounds with a various noise levels. Our new findings are an abrupt change in F0 at 84 dB, increasing formant amplitudes, and H1-H2 variation, and a raised modulation spectrum. On the basis of physiological and psychological knowledge, we can give reasons for their correlations with intelligibility. Moreover, these variations continuously vary with increasing noise level. As a result, it is suggested that they are related to the adaptive tendencies of intelligibility.

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“…Then, the event functions and the event timings are determined by DP and the NMF update rules of Eqs. (7)- (8). Note that the event vectors are not updated at this stage.…”

Section: Ntdmentioning

confidence: 99%

“…Temporal decomposition (TD) [2] can represent speech parameters as a set of temporally overlapped event functions and corresponding event vectors. TD has been used for many applications: speech coding [2,3], segmentation of speech signals [4,5], analysis of articulatory parameters [6,7] and modification for the speech spectrum [8] as well as for the speaking rhythm [9]. For these purposes, the event functions should be restricted to the range [0, 1].…”

Section: Introductionmentioning

confidence: 99%

Non-negative temporal decomposition of speech parameters

Sano¹

2010

2010 IEEE International Conference on Acoustics, Speech and Signal Processing

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We present a non-negative temporal decomposition method for line spectrum pair and articulatory parameters. Based on the multiplicative update rules derived from a non-negative matrix factorization algorithm, these parameters decompose into a set of temporally overlapped event functions that are restricted to the range [0, 1] and corresponding event vectors. With the proposed method, the RMS error of the measured and estimated articulatory parameters is 0.16 mm and the spectral distance of the measured and estimated line spectrum pair parameters is 1.97 dB. These results also show that these estimation errors of proposed method are significantly smaller than those of the conventional method. This technique will be useful for many applications, such as speech coding and speech modification.

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A flexible spectral modification method based on temporal decomposition and Gaussian mixture model

Cited by 8 publications

References 26 publications

Towards Parametric Speech Synthesis Using Gaussian-Markov Model of Spectral Envelope and Wavelet-Based Decomposition of F0

Towards Parametric Speech Synthesis Using Gaussian-Markov Model of Spectral Envelope and Wavelet-Based Decomposition of F0

Acoustical Analyses of Tendencies of Intelligibility in Lombard Speech with Different Background Noise Levels

Non-negative temporal decomposition of speech parameters

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