Journal ArticleDOI
Separation of speech from interfering speech by means of harmonic selection
TLDR
In this paper, the harmonics of the desired voice in the Fourier transform of the input were selected to distinguish between two different voices. But the authors focus on the principal subproblem, the separation of vocalic speech.Abstract:
A common type of interference in speech transmission is that caused by the speech of a competing talker. Although the brain is adept at clarifying such speech, it relies heavily on binaural data. When voices interfere over a single channel, separation is much more difficult and intelligibility suffers. Clarifying such speech is a complex and varied problem whose nature changes with the moment‐to‐moment variation in the types of sound which interfere. This paper describes an attack on the principal subproblem, the separation of vocalic speech. Separation is done by selecting the harmonics of the desired voice in the Fourier transform of the input. In implementing this process, techniques have been developed for resolving overlapping spectrum components, for determining pitches of both talkers, and for assuring consistent separation. These techniques are described, their performance on test utterances is summarized, and the possibility of using this process as a basis for the solution of the general two‐tal...read more
Citations
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Journal ArticleDOI
An approach to co-channel talker interference suppression using a sinusoidal model for speech
TL;DR: Evidence is provided that the sinusoidal analysis/synthesis model with effective parameter estimation techniques offers a promising approach to the problem of cochannel talker-interference suppression over a range of conditions.
Journal ArticleDOI
Pitch, harmonicity and concurrent sound segregation: psychoacoustical and neurophysiological findings.
TL;DR: Both psychophysical and neurophysiological findings are reviewed, which provide some insight into how, and how well, the auditory system accomplishes this task of separating harmonics when two or more harmonic sounds occur concurrently.
Journal ArticleDOI
Modeling the perception of concurrent vowels: Vowels with the same fundamental frequency
TL;DR: The hypothesis that the auditory system pays particular attention to the frequencies of spectral peaks, and possibly also of shoulders, when identifying vowels is supported, suggesting that the spectral peaks and shoulders can indicate thefrequency of formants when other aspects of spectral shape are obscured by competing sounds.
Journal ArticleDOI
Short-time Fourier analysis of sampled speech
TL;DR: In this article, the theoretical basis for the representation of a speech signal by its short-time Fourier transform is developed, and a time-frequency representation for linear time-varying systems is applied to the speech-production model to formulate a quasi-stationary representation for the speech waveform.
Book ChapterDOI
Separation of Speech by Computational Auditory Scene Analysis
Guy J. Brown,DeLiang Wang +1 more
TL;DR: This chapter reviews the principles underlying ASA and shows how they can be implemented in CASA systems, and considers the link between CASA and automatic speech recognition, and draws distinctions between the CASa and ICA approaches.