The effects of a pediatric unilateral inguinal hernia clinical pathway on quality and cost

ransient noise pulses differ from the short-duration impulsive noise studied in the previous chapter, in that they have a longer duration and a relatively higher proportion of low-frequency energy content, and usually occur less frequently than impulsive noise. The sources of transient noise pulses are varied, and may be electromagnetic, acoustic or due to physical defects in the recording medium. Examples of transient noise pulses include switching noise in telephony, noise pulses due to adverse radio transmission environments, noise pulses due to on/off switching of nearby electric devices, scratches and defects on damaged records, click sounds from a computer keyboard, etc. The noise pulse removal methods considered in this chapter are based on the observation that transient noise pulses can be regarded as the response of the communication channel, or the playback system, to an impulse. In this chapter, we study the characteristics of transient noise pulses and consider a template-based method, a linear predictive model and a hidden Markov model for the modelling and removal of transient noise pulses. The subject of this chapter closely follows that of Chapter 12 on impulsive noise.

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Advanced Digital Signal Processing and Noise Reduction

Vaseghi

2008

632

273

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Advanced Signal Processing and Digital Noise Reduction

Vaseghi¹

1996

299

137

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Noise compensation methods for hidden Markov model speech recognition in adverse environments

Vaseghi

Milner

1997

IEEE Trans. Speech Audio Process.

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Several noise compensation schemes for speech recognition in impulsive and nonimpulsive noise are considered. The noise compensation schemes are spectral subtraction, HMM-based Wiener filters, noise-adaptive HMM's, and a front-end impulsive noise removal. The use of the cepstral-time matrix as an improved speech feature set is explored, and the noise compensation methods are extended for use with cepstral-time features. Experimental evaluations, on a spoken digit database, in the presence of car noise, helicopter noise, and impulsive noise, demonstrate that the noise compensation methods achieve substantial improvement in recognition across a wide range of signal-to-noise ratios. The results also show that the cepstral-time matrix is more robust than a vector of identical size, which is composed of a combination of cepstral and differential cepstral features.

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Detection and suppression of impulsive noise in speech communication systems

Vaseghi

Rayner

1990

IEE Proc. I Commun. Speech Vis.

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State duration modelling in hidden Markov models

Vaseghi

1995

Signal Processing

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Noisy Speech Enhancement Using Harmonic-Noise Model and Codebook-Based Post-Processing

Zavarehei¹,

Vaseghi²,

Yan

2007

IEEE Trans. Audio Speech Lang. Process.

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Analysis and Synthesis of Formant Spaces of British, Australian, and American Accents

Yan

Vaseghi

Rentzos

et al. 2007

IEEE Trans. Audio Speech Lang. Process.

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Saeed Vaseghi

Advanced Digital Signal Processing and Noise Reduction

Advanced Digital Signal Processing and Noise Reduction

Advanced Signal Processing and Digital Noise Reduction

Noise compensation methods for hidden Markov model speech recognition in adverse environments

Detection and suppression of impulsive noise in speech communication systems

State duration modelling in hidden Markov models

Noisy Speech Enhancement Using Harmonic-Noise Model and Codebook-Based Post-Processing

Analysis and Synthesis of Formant Spaces of British, Australian, and American Accents

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