Your search keyword '"Pattern Recognition, Physiological"' showing total 124 results

1. Limitations in human auditory spectral analysis at high frequencies.

Author

Guest DR, Rajappa N, and Oxenham AJ

Subjects

Humans, Young Adult, Female, Male, Adult, Cues, Speech Perception physiology, Sound Spectrography, Loudness Perception, Pattern Recognition, Physiological, Acoustic Stimulation, Auditory Threshold, Psychoacoustics

Abstract

Humans are adept at identifying spectral patterns, such as vowels, in different rooms, at different sound levels, or produced by different talkers. How this feat is achieved remains poorly understood. Two psychoacoustic analogs of spectral pattern recognition are spectral profile analysis and spectrotemporal ripple direction discrimination. This study tested whether pattern-recognition abilities observed previously at low frequencies are also observed at extended high frequencies. At low frequencies (center frequency ∼500 Hz), listeners were able to achieve accurate profile-analysis thresholds, consistent with prior literature. However, at extended high frequencies (center frequency ∼10 kHz), listeners' profile-analysis thresholds were either unmeasurable or could not be distinguished from performance based on overall loudness cues. A similar pattern of results was observed with spectral ripple discrimination, where performance was again considerably better at low than at high frequencies. Collectively, these results suggest a severe deficit in listeners' ability to analyze patterns of intensity across frequency in the extended high-frequency region that cannot be accounted for by cochlear frequency selectivity. One interpretation is that the auditory system is not optimized to analyze such fine-grained across-frequency profiles at extended high frequencies, as they are not typically informative for everyday sounds., (© 2024 Acoustical Society of America.)

Published

2024

2. Bottlenose dolphin (Tursiops truncatus) discrimination of harmonic stimuli with range-dependent signal degradation.

Author

Mulsow J, Finneran JJ, Schlundt CE, and Jones R

Subjects

Animals, Bottle-Nosed Dolphin physiology, Cues, Female, Hearing, Male, Motion, Pattern Recognition, Physiological, Psychoacoustics, Sound, Vibration, Acoustic Stimulation methods, Behavior, Animal, Bottle-Nosed Dolphin psychology, Pitch Discrimination

Abstract

The importance of perceived sound source distance has been noted in controlled exposure studies with free-ranging marine mammals. Different behavioral reactions have been observed for sonar exposures with a similar received level but differing source distances. This psychophysical study examined bottlenose dolphins' use of range-dependent acoustic features in classifying frequency-modulated tonal stimuli (∼10-kHz fundamental). Repetitive tones with simulated range-dependent high-frequency attenuation (HFA) and reverberation (REV) were presented with roving levels (levels varied ±10 dB). The dolphins were trained to produce a phonic response upon hearing tones simulating relatively distant 30-km sources and to withhold response for closer-range tones. Once this behavior was reliably performed, probe trials with intermediate ranges were used to examine stimulus classification based on HFA and REV. Dolphins responded to nearly all probe trials with ranges of 10 and 20 km, while responses were less frequent at 1 and 2 km. Probes with HFA and REV decoupled from simulated source distance indicated that the dolphins used HFA to a greater degree than REV in response decisions. These results suggest that dolphins can classify harmonic signals based on range-dependent HFA and REV independent of received level, making these cues potentially useful in deciding behavioral reactions to acoustic sources.

Published

2018

3. A transfer learning framework for predicting the emotional content of generalized sound events.

Author

Ntalampiras S

Subjects

Acoustic Stimulation, Adult, Algorithms, Cues, Female, Humans, Male, Models, Theoretical, Pattern Recognition, Physiological, Time Factors, Young Adult, Auditory Perception, Emotions, Music, Sound, Transfer, Psychology

Abstract

Predicting the emotions evoked by generalized sound events is a relatively recent research domain which still needs attention. In this work a framework aiming to reveal potential similarities existing during the perception of emotions evoked by sound events and songs is presented. To this end the following are proposed: (a) the usage of temporal modulation features, (b) a transfer learning module based on an echo state network, and (c) a k-medoids clustering algorithm predicting valence and arousal measurements associated with generalized sound events. The effectiveness of the proposed solution is demonstrated after a thoroughly designed experimental phase employing both sound and music data. The results demonstrate the importance of transfer learning in the specific field and encourage further research on approaches which manage the problem in a synergistic way.

Published

2017

4. On the variation of interaural time differences with frequency.

Author

Benichoux V, Rébillat M, and Brette R

Subjects

Acoustic Stimulation, Acoustics, Animals, Databases, Factual, Head anatomy & histology, Humans, Models, Theoretical, Motion, Pattern Recognition, Physiological, Sound, Species Specificity, Time Factors, Cues, Pitch Perception, Sound Localization, Time Perception

Abstract

Interaural time difference (ITD) is a major cue to sound localization in humans and animals. For a given subject and position in space, ITD depends on frequency. This variation is analyzed here using a head related transfer functions (HRTFs) database collected from the literature and comprising human HRTFs from 130 subjects and animal HRTFs from six specimens of different species. For humans, the ITD is found to vary with frequency in a way that shows consistent differences with respect to a spherical head model. Maximal ITD values were found to be about 800 μs in low frequencies and 600 μs in high frequencies. The ITD variation with frequency (up to 200 μs for some positions) occurs within the frequency range where ITD is used to judge the lateral position of a sound source. In addition, ITD varies substantially within the bandwidth of a single auditory filter, leading to systematic differences between envelope and fine-structure ITDs. Because the frequency-dependent pattern of ITD does not display spherical symmetries, it potentially provides cues to elevation and resolves front/back confusion. The fact that the relation between position and ITDs strongly depends on the sound's spectrum in turn suggests that humans and animals make use of this relationship for the localization of sounds.

Published

2016

5. Assessing the validity of subjective reports in the auditory streaming paradigm.

Author

Farkas D, Denham SL, Bendixen A, and Winkler I

Subjects

Adolescent, Adult, Bias, Comprehension, Female, Humans, Male, Pattern Recognition, Physiological, Pilot Projects, Pitch Perception, Reproducibility of Results, Volition, Young Adult, Acoustic Stimulation methods, Audiometry methods, Auditory Perception

Abstract

While subjective reports provide a direct measure of perception, their validity is not self-evident. Here, the authors tested three possible biasing effects on perceptual reports in the auditory streaming paradigm: errors due to imperfect understanding of the instructions, voluntary perceptual biasing, and susceptibility to implicit expectations. (1) Analysis of the responses to catch trials separately promoting each of the possible percepts allowed the authors to exclude participants who likely have not fully understood the instructions. (2) Explicit biasing instructions led to markedly different behavior than the conventional neutral-instruction condition, suggesting that listeners did not voluntarily bias their perception in a systematic way under the neutral instructions. Comparison with a random response condition further supported this conclusion. (3) No significant relationship was found between social desirability, a scale-based measure of susceptibility to implicit social expectations, and any of the perceptual measures extracted from the subjective reports. This suggests that listeners did not significantly bias their perceptual reports due to possible implicit expectations present in the experimental context. In sum, these results suggest that valid perceptual data can be obtained from subjective reports in the auditory streaming paradigm.

Published

2016

6. Effects of a consistent target or masker voice on target speech intelligibility in two- and three-talker mixtures.

Author

Samson F and Johnsrude IS

Subjects

Acoustic Stimulation, Adolescent, Audiometry, Pure-Tone, Audiometry, Speech, Auditory Threshold, Cues, Female, Humans, Male, Pattern Recognition, Physiological, Recognition, Psychology, Time Factors, Young Adult, Noise adverse effects, Perceptual Masking, Speech Acoustics, Speech Intelligibility, Voice Quality

Abstract

When the spatial location or identity of a sound is held constant, it is not masked as effectively by competing sounds. This suggests that experience with a particular voice over time might facilitate perceptual organization in multitalker environments. The current study examines whether listeners benefit from experience with a voice only when it is the target, or also when it is a masker, using diotic presentation and a closed-set task (coordinate response measure). A reliable interaction was observed such that, in two-talker mixtures, consistency of masker or target voice over 3-7 trials significantly benefited target recognition performance, whereas in three-talker mixtures, target, but not masker, consistency was beneficial. Overall, this work suggests that voice consistency improves intelligibility, although somewhat differently when two talkers, compared to three talkers, are present, suggesting that consistent-voice information facilitates intelligibility in at least two different ways. Listeners can use a template-matching strategy to extract a known voice from a mixture when it is the target. However, consistent-voice information facilitates segregation only when two, but not three, talkers are present.

Published

2016

7. Perceptual integration of acoustic cues to laryngeal contrasts in Korean fricatives.

Author

Lee S and Katz J

Subjects

Acoustic Stimulation, Acoustics, Adolescent, Adult, Audiometry, Speech, Discrimination, Psychological, Female, Humans, Male, Pattern Recognition, Physiological, Pitch Perception, Psychoacoustics, Sound Spectrography, Young Adult, Cues, Larynx physiology, Phonetics, Speech Acoustics, Speech Perception, Voice Quality

Abstract

This paper provides evidence that multiple acoustic cues involving the presence of low-frequency energy integrate in the perception of Korean coronal fricatives. This finding helps explain a surprising asymmetry between the production and perception of these fricatives found in previous studies: lower F0 onset in the following vowel leads to a response bias for plain [s] over fortis [s*], despite the fact that there is no evidence for a corresponding acoustic asymmetry in the production of [s] and [s*]. A fixed classification task using the Garner paradigm provides evidence that low F0 in a following vowel and the presence of voicing during frication perceptually integrate. This suggests that Korean listeners in previous experiments were responding to an "intermediate perceptual property" of stimuli, despite the fact that the individual acoustic components of that property are not all present in typical Korean fricative productions. The finding also broadens empirical support for the general idea of perceptual integration to a language, a different manner of consonant, and a situation where covariance of the acoustic cues under investigation is not generally present in a listener's linguistic input.

Published

2016

8. Across-frequency processing of modulation phase differences in hearing-impaired listeners.

Author

Lentz JJ and Valentine S

Subjects

Acoustic Stimulation, Adolescent, Adult, Aged, Audiometry, Auditory Threshold, Case-Control Studies, Humans, Middle Aged, Pattern Recognition, Physiological, Psychoacoustics, Signal Detection, Psychological, Time Factors, Cues, Persons With Hearing Impairments psychology, Pitch Perception

Abstract

Two experiments tested the influence of hearing impairment (HI) on representing across-frequency temporal coherence. In one experiment, HI listeners demonstrated similar abilities to normal-hearing listeners in detecting across-frequency differences in modulation phase. In another, spectral-shape discrimination was detrimentally affected by modulation phase disparities imposed on spectral components. Spectral-shape discrimination by HI listeners was less influenced by the disparities, suggesting that hearing loss alters the representation of envelope phase. Results suggest that multiple approaches may be necessary to determine alterations associated with hearing loss—detection tasks may not be sufficient to elucidate distortions to temporal envelope associated with hearing loss.

Published

2015

9. The effects of acoustic variability on absolute pitch categorization: Evidence of contextual tuning.

Author

Van Hedger SC, Heald SL, and Nusbaum HC

Subjects

Acoustic Stimulation, Adolescent, Adult, Education, Female, Humans, Language, Male, Pattern Recognition, Physiological, Pitch Discrimination, Reaction Time, Young Adult, Music, Pitch Perception

Abstract

Absolute pitch (AP) is defined as the ability to label a musical note without the aid of a reference note. Despite the large amounts of acoustic variability encountered in music, AP listeners generally experience perceptual constancy for different exemplars within note categories (e.g., recognizing that a C played on a tuba belongs to the same category as a C played on a piccolo). The present studies investigate whether AP possessors are sensitive to context variability along acoustic dimensions that are not inherently linked to the typical definition of a note category. In a speeded target recognition task, AP participants heard a sequence of notes and pressed a button whenever they heard a designated target note. Within a trial the sequence of notes was either blocked according to note-irrelevant variation or contained a mix of different instruments (Experiment 1), amplitude levels (Experiment 2), or octaves (Experiment 3). Compared to the blocked trials, participants were significantly slower to respond in the mixed-instrument and mixed-octave trials, but not the mixed-amplitude trials. Importantly, this performance difference could not be solely attributed to initial performance differences between instruments, amplitudes, or octaves. These results suggest that AP note identification is contextually sensitive.

Published

2015

10. Predicting contrast effects following reliable spectral properties in speech perception.

Author

Stilp CE, Anderson PW, and Winn MB

Subjects

Acoustic Stimulation, Acoustics, Audiometry, Speech, Auditory Perception, Humans, Pattern Recognition, Physiological, Phonetics, Psychoacoustics, Sound Spectrography, Voice Quality, Cues, Speech Acoustics, Speech Intelligibility, Speech Perception

Abstract

Vowel perception is influenced by precursor sounds that are resynthesized to shift frequency regions [Ladefoged and Broadbent (1957). J. Acoust. Soc. Am. 29(1), 98-104] or filtered to emphasize narrow [Kiefte and Kluender (2008). J. Acoust. Soc. Am. 123(1), 366-376] or broad frequency regions [Watkins (1991). J. Acoust. Soc. Am. 90(6), 2942-2955]. Spectral differences between filtered precursors and vowel targets are perceptually enhanced, producing spectral contrast effects (e.g., emphasizing spectral properties of /ɪ/ in the precursor elicited more /ɛ/ responses to an /ɪ/-/ɛ/ vowel continuum, and vice versa). Historically, precursors have been processed by high-gain filters, resulting in prominent stable long-term spectral properties. Perceptual sensitivity to subtler but equally reliable spectral properties is unknown. Here, precursor sentences were processed by filters of variable bandwidths and different gains, then followed by vowel sounds varying from /ɪ/-/ɛ/. Contrast effects were widely observed, including when filters had only 100-Hz bandwidth or +5 dB gain. Average filter power was a good predictor of the magnitudes of contrast effects, revealing a close linear correspondence between the prominence of a reliable spectral property and the size of shifts in perceptual responses. High sensitivity to subtle spectral regularities suggests contrast effects are not limited to high-power filters, and thus may be more pervasive in speech perception than previously thought.

Published

2015

11. Speech perception of sine-wave signals by children with cochlear implants.

Author

Nittrouer S, Kuess J, and Lowenstein JH

Subjects

Acoustic Stimulation, Acoustics, Age Factors, Audiometry, Speech, Awareness, Case-Control Studies, Child, Child Behavior, Child Language, Cues, Humans, Noise adverse effects, Pattern Recognition, Physiological, Perceptual Masking, Persons With Hearing Impairments psychology, Phonetics, Recognition, Psychology, Signal Processing, Computer-Assisted, Sound Spectrography, Cochlear Implantation instrumentation, Cochlear Implants, Correction of Hearing Impairment instrumentation, Persons With Hearing Impairments rehabilitation, Speech Perception

Abstract

Children need to discover linguistically meaningful structures in the acoustic speech signal. Being attentive to recurring, time-varying formant patterns helps in that process. However, that kind of acoustic structure may not be available to children with cochlear implants (CIs), thus hindering development. The major goal of this study was to examine whether children with CIs are as sensitive to time-varying formant structure as children with normal hearing (NH) by asking them to recognize sine-wave speech. The same materials were presented as speech in noise, as well, to evaluate whether any group differences might simply reflect general perceptual deficits on the part of children with CIs. Vocabulary knowledge, phonemic awareness, and "top-down" language effects were all also assessed. Finally, treatment factors were examined as possible predictors of outcomes. Results showed that children with CIs were as accurate as children with NH at recognizing sine-wave speech, but poorer at recognizing speech in noise. Phonemic awareness was related to that recognition. Top-down effects were similar across groups. Having had a period of bimodal stimulation near the time of receiving a first CI facilitated these effects. Results suggest that children with CIs have access to the important time-varying structure of vocal-tract formants.

Published

2015

12. Spectro-temporal modulation masking patterns reveal frequency selectivity.

Author

Oetjen A and Verhey JL

Subjects

Acoustic Stimulation, Adult, Audiometry, Auditory Threshold, Female, Humans, Male, Pattern Recognition, Physiological, Psychoacoustics, Signal Detection, Psychological, Sound Spectrography, Time Factors, Auditory Pathways physiology, Cues, Noise adverse effects, Perceptual Masking, Pitch Perception

Abstract

The present study investigated the possibility that the human auditory system demonstrates frequency selectivity to spectro-temporal amplitude modulations. Threshold modulation depth for detecting sinusoidal spectro-temporal modulations was measured using a generalized masked threshold pattern paradigm with narrowband masker modulations. Four target spectro-temporal modulations were examined, differing in their temporal and spectral modulation frequencies: a temporal modulation of -8, 8, or 16 Hz combined with a spectral modulation of 1 cycle/octave and a temporal modulation of 4 Hz combined with a spectral modulation of 0.5 cycles/octave. The temporal center frequencies of the masker modulation ranged from 0.25 to 4 times the target temporal modulation. The spectral masker-modulation center-frequencies were 0, 0.5, 1, 1.5, and 2 times the target spectral modulation. For all target modulations, the pattern of average thresholds for the eight normal-hearing listeners was consistent with the hypothesis of a spectro-temporal modulation filter. Such a pattern of modulation-frequency sensitivity was predicted on the basis of psychoacoustical data for purely temporal amplitude modulations and purely spectral amplitude modulations. An analysis of separability indicates that, for the present data set, selectivity in the spectro-temporal modulation domain can be described by a combination of a purely spectral and a purely temporal modulation filter function.

Published

2015

13. Perceptual susceptibility to acoustic manipulations in speaker discrimination.

Author

Sell G, Suied C, Elhilali M, and Shamma S

Subjects

Acoustic Stimulation, Acoustics, Adolescent, Audiometry, Speech, Female, Humans, Judgment, Male, Pattern Recognition, Physiological, Pitch Perception, Recognition, Psychology, Time Factors, Young Adult, Cues, Discrimination, Psychological, Speech Acoustics, Speech Perception, Voice Quality

Abstract

Listeners' ability to discriminate unfamiliar voices is often susceptible to the effects of manipulations of acoustic characteristics of the utterances. This vulnerability was quantified within a task in which participants determined if two utterances were spoken by the same or different speakers. Results of this task were analyzed in relation to a set of historical and novel parameters in order to hypothesize the role of those parameters in the decision process. Listener performance was first measured in a baseline task with unmodified stimuli, and then compared to responses with resynthesized stimuli under three conditions: (1) normalized mean-pitch; (2) normalized duration; and (3) normalized linear predictive coefficients (LPCs). The results of these experiments suggest that perceptual speaker discrimination is robust to acoustic changes, though mean-pitch and LPC modifications are more detrimental to a listener's ability to successfully identify same or different speaker pairings. However, this susceptibility was also found to be partially dependent on the specific speaker and utterances.

Published

2015

14. Spectral and temporal resolutions of information-bearing acoustic changes for understanding vocoded sentences.

Author

Stilp CE and Goupell MJ

Subjects

Computer Simulation, Cues, Humans, Noise adverse effects, Pattern Recognition, Physiological, Perceptual Masking, Sound Spectrography, Time Factors, Acoustic Stimulation methods, Audiometry, Speech methods, Comprehension, Pitch Perception, Speech Acoustics, Speech Intelligibility, Speech Perception, Voice Quality

Abstract

Short-time spectral changes in the speech signal are important for understanding noise-vocoded sentences. These information-bearing acoustic changes, measured using cochlea-scaled entropy in cochlear implant simulations [CSECI; Stilp et al. (2013). J. Acoust. Soc. Am. 133(2), EL136-EL141; Stilp (2014). J. Acoust. Soc. Am. 135(3), 1518-1529], may offer better understanding of speech perception by cochlear implant (CI) users. However, perceptual importance of CSECI for normal-hearing listeners was tested at only one spectral resolution and one temporal resolution, limiting generalizability of results to CI users. Here, experiments investigated the importance of these informational changes for understanding noise-vocoded sentences at different spectral resolutions (4-24 spectral channels; Experiment 1), temporal resolutions (4-64 Hz cutoff for low-pass filters that extracted amplitude envelopes; Experiment 2), or when both parameters varied (6-12 channels, 8-32 Hz; Experiment 3). Sentence intelligibility was reduced more by replacing high-CSECI intervals with noise than replacing low-CSECI intervals, but only when sentences had sufficient spectral and/or temporal resolution. High-CSECI intervals were more important for speech understanding as spectral resolution worsened and temporal resolution improved. Trade-offs between CSECI and intermediate spectral and temporal resolutions were minimal. These results suggest that signal processing strategies that emphasize information-bearing acoustic changes in speech may improve speech perception for CI users.

Published

2015

15. Auditory, visual, and auditory-visual processing performance in typically developing children: modality independence versus dependence.

Author

Pillai R and Yathiraj A

Subjects

Acoustic Stimulation, Age Factors, Audiometry, Speech, Child, Cues, Dichotic Listening Tests, Humans, Noise adverse effects, Pattern Recognition, Physiological, Perceptual Masking, Phonetics, Photic Stimulation, Speech Perception, Time Factors, Auditory Perception, Child Development, Visual Perception

Abstract

The study was carried out to determine whether cross-modal interactions occur during processing of auditory and/or visual signals that require separation/closure, integration, and duration pattern perception in typically developing children. Thirty typically developing children were evaluated on three auditory processing tests (speech-in-noise test in Indian-English, dichotic-consonant vowel test, and duration pattern test) that tapped separation/closure, integration and duration pattern perception. The children were also evaluated on the visual and auditory-visual analogues of the auditory tests. Differences in modality were found in each of the processes that were tested. The performance when the auditory and visual modalities were tested simultaneously was significantly higher than the auditory or visual modality for tests that involved separation/closure and integration. In contrast, scores on the analogous auditory-visual duration pattern test were significantly higher than the auditory test but not the visual analogous test. Further, the scores of the auditory modality were significantly poorer than the visual modality for separation/closure and duration patterning but not for integration. Findings of the study indicate that performance on higher level processing varies depending on the modality that is assessed and supports the presence of cross-modality interactions.

Published

2015

16. The effect of speech modification on non-native listeners for matrix-style sentences.

Author

Cooke M, García Lecumberri ML, and Tang Y

Subjects

Acoustic Stimulation, Algorithms, Audiometry, Speech, Comprehension, Female, Humans, Male, Noise adverse effects, Pattern Recognition, Physiological, Perceptual Masking, Signal Processing, Computer-Assisted, Sound Spectrography, Multilingualism, Speech Acoustics, Speech Intelligibility, Speech Perception

Abstract

Speech can be modified to promote intelligibility in noise, but the potential benefits for non-native listeners are difficult to predict due to the additional presence of distortion introduced by speech alteration. The current study compared native and non-native listeners' keyword scores for simple sentences, unmodified and with six forms of modification. Both groups showed similar patterns of intelligibility change across conditions, with the native cohort benefiting slightly more in stationary noise. This outcome suggests that the change in masked audibility rather than distortion is the dominant factor governing listeners' responses to speech modification.

Published

2015

17. Effects of age and hearing loss on the intelligibility of interrupted speech.

Author

Shafiro V, Sheft S, Risley R, and Gygi B

Subjects

Acoustic Stimulation, Adult, Age Factors, Aged, Aged, 80 and over, Audiometry, Pure-Tone, Audiometry, Speech, Auditory Threshold, Cues, Female, Hearing Loss, Sensorineural diagnosis, Humans, Male, Memory, Short-Term, Middle Aged, Pattern Recognition, Physiological, Presbycusis diagnosis, Psychoacoustics, Sound Spectrography, Time Factors, Young Adult, Aging psychology, Hearing Loss, Sensorineural psychology, Persons With Hearing Impairments psychology, Presbycusis psychology, Speech Intelligibility, Speech Perception

Abstract

How age and hearing loss affect the perception of interrupted speech may vary based on both the physical properties of preserved or obliterated speech fragments and individual listener characteristics. To investigate perceptual processes and interruption parameters influencing intelligibility across interruption rates, participants of different age and hearing status heard sentences interrupted by silence at either a single primary rate (0.5-8 Hz; 25%, 50%, 75% duty cycle) or at an additional concurrent secondary rate (24 Hz; 50% duty cycle). Although age and hearing loss significantly affected intelligibility, the ability to integrate sub-phonemic speech fragments produced by the fast secondary rate was similar in all listener groups. Age and hearing loss interacted with rate with smallest group differences observed at the lowest and highest interruption rates of 0.5 and 24 Hz. Furthermore, intelligibility of dual-rate gated sentences was higher than single-rate gated sentences with the same proportion of retained speech. Correlations of intelligibility of interrupted speech to pure-tone thresholds, age, or measures of working memory and auditory spectro-temporal pattern discrimination were generally low-to-moderate and mostly nonsignificant. These findings demonstrate rate-dependent effects of age and hearing loss on the perception of interrupted speech, suggesting complex interactions of perceptual processes across different time scales.

Published

2015

18. Auditory motivated front-end for noisy speech using spectro-temporal modulation filtering.

Author

Ganapathy S and Omar M

Subjects

Databases as Topic, Humans, Pattern Recognition, Physiological, Radio, Computer Simulation, Neural Networks, Computer, Sound Spectrography methods, Speech Perception physiology, Speech Recognition Software

Abstract

The robustness of the human auditory system to noise is partly due to the peak preserving capability of the periphery and the cortical filtering of spectro-temporal modulations. In this letter, a robust speech feature extraction scheme is developed that emulates this processing by deriving a spectrographic representation that emphasizes the high energy regions. This is followed by a modulation filtering step to preserve only the important spectro-temporal modulations. The features derived from this representation provide significant improvements for speech recognition in noise and language identification in radio channel speech. Further, the experimental analysis shows congruence with human psychophysical studies.

Published

2014

19. Relationship among the physiologic channel interactions, spectral-ripple discrimination, and vowel identification in cochlear implant users.

Author

Won JH, Humphrey EL, Yeager KR, Martinez AA, Robinson CH, Mills KE, Johnstone PM, Moon IJ, and Woo J

Subjects

Action Potentials, Aged, Aged, 80 and over, Discrimination, Psychological, Electrodes, Implanted, Equipment Design, Hearing Loss physiopathology, Hearing Loss therapy, Humans, Middle Aged, Pattern Recognition, Physiological, Psychoacoustics, Sound, Cochlea physiopathology, Cochlear Implants, Evoked Potentials, Auditory physiology, Phonetics, Speech Perception physiology

Abstract

The hypothesis of this study was that broader patterns of physiological channel interactions in the local region of the cochlea are associated with poorer spectral resolution in the same region. Electrically evoked compound action potentials (ECAPs) were measured for three to six probe electrodes per subject to examine the channel interactions in different regions across the electrode array. To evaluate spectral resolution at a confined location within the cochlea, spectral-ripple discrimination (SRD) was measured using narrowband ripple stimuli with the bandwidth spanning five electrodes: Two electrodes apical and basal to the ECAP probe electrode. The relationship between the physiological channel interactions, spectral resolution in the local cochlear region, and vowel identification was evaluated. Results showed that (1) there was within- and across-subject variability in the widths of ECAP channel interaction functions and in narrowband SRD performance, (2) significant correlations were found between the widths of the ECAP functions and narrowband SRD thresholds, and between mean bandwidths of ECAP functions averaged across multiple probe electrodes and broadband SRD performance across subjects, and (3) the global spectral resolution reflecting the entire electrode array, not the local region, predicts vowel identification.

Published

2014

20. Audio-visual interaction and perceptual assessment of water features used over road traffic noise.

Author

Galbrun L and Calarco FM

Subjects

Adult, Affect, Consumer Behavior, Ethnicity psychology, Female, Humans, Male, Middle Aged, Motor Vehicles, Pattern Recognition, Physiological, Pattern Recognition, Visual, Principal Component Analysis, Attention physiology, Auditory Perception, Environment Design, Noise, Transportation, Relaxation, Stress, Psychological prevention & control, Visual Perception, Water

Abstract

This paper examines the audio-visual interaction and perception of water features used over road traffic noise, including their semantic aural properties, as well as their categorization and evocation properties. The research focused on a wide range of small to medium sized water features that can be used in gardens and parks to promote peacefulness and relaxation. Paired comparisons highlighted the inter-dependence between uni-modal (audio-only or visual-only) and bi-modal (audio-visual) perception, indicating that equal attention should be given to the design of both stimuli. In general, natural looking features tended to increase preference scores (compared to audio-only paired comparison scores), while manmade looking features decreased them. Semantic descriptors showed significant correlations with preferences and were found to be more reliable design criteria than physical parameters. A principal component analysis identified three components within the nine semantic attributes tested: "emotional assessment," "sound quality," and "envelopment and temporal variation." The first two showed significant correlations with audio-only preferences, "emotional assessment" being the most important predictor of preferences, and its attributes naturalness, relaxation, and freshness also being significantly correlated with preferences. Categorization results indicated that natural stream sounds are easily identifiable (unlike waterfalls and fountains), while evocation results showed no unique relationship with preferences.

Published

2014

21. Phase effects in masking by harmonic complexes: detection of bands of speech-shaped noise.

Author

Deroche ML, Culling JF, and Chatterjee M

Subjects

Adult, Differential Threshold, Humans, Models, Theoretical, Pattern Recognition, Physiological, Periodicity, Sound, Speech Acoustics, Young Adult, Noise, Perceptual Masking physiology, Phonetics, Speech Intelligibility

Abstract

When phase relationships between partials of a complex masker produce highly modulated temporal envelopes on the basilar membrane, listeners may detect speech information from temporal dips in the within-channel masker envelopes. This source of masking release (MR) is however located in regions of unresolved masker partials and it is unclear how much of the speech information in these regions is really needed for intelligibility. Also, other sources of MR such as glimpsing in between resolved masker partials may provide sufficient information from regions that disregard phase relationships. This study simplified the problem of speech recognition to a masked detection task. Target bands of speech-shaped noise were restricted to frequency regions containing either only resolved or only unresolved masker partials, as a function of masker phase relationships (sine or random), masker fundamental frequency (F0) (50, 100, or 200 Hz), and masker spectral profile (flat-spectrum or speech-shaped). Although masker phase effects could be observed in unresolved regions at F0s of 50 and 100 Hz, it was only at 50-Hz F0 that detection thresholds were ever lower in unresolved than in resolved regions, suggesting little role of envelope modulations for harmonic complexes with F0s in the human voice range and at moderate level.

Published

2014

22. The role of creaky voice in Cantonese tonal perception.

Author

Yu KM and Lam HW

Subjects

Acoustic Stimulation, Acoustics, Adult, Audiometry, Speech, Cues, Female, Humans, Male, Pattern Recognition, Physiological, Sound Spectrography, Speech Production Measurement, Young Adult, Phonation, Phonetics, Pitch Perception, Speech Acoustics, Speech Perception, Voice Quality

Abstract

There are few studies on the role of phonation cues in the perception of lexical tones in tonal languages where pitch is the primary dimension of contrast. This study shows that listeners are sensitive to creaky phonation in native tonal perception in Cantonese, a language in which the low falling tone, Tone 4, has anecdotally been reported to be sometimes creaky. First, in a multi-speaker corpus of lab speech, it is documented that creak occurs systematically more often on Tone 4 than other tones. Second, for stimuli drawn from this corpus, listeners identified Tone 4 with 20% higher accuracy when it was realized with creak than when it was not. Third, in a two-alternative forced choice task of identifying stimuli as Tone 4 or Tone 6 (the low level tone) isolating creak from any concomitant pitch cues, listeners had a higher proportion of Tone 4 responses for creaky stimuli. Finally, listeners had more Tone 4 responses for creaky stimuli with longer durations of nonmodal phonation. These results underscore that differences in voice quality contribute to human perception of tone alongside f0. Automatic tonal recognition and clinical applications for tone would benefit from attention to voice quality beyond f0 and pitch.

Published

2014

23. Temporal signal processing of dolphin biosonar echoes from salmon prey.

Author

Au WW and Ou HH

Subjects

Air Sacs physiology, Algorithms, Animals, Computer Simulation, Cues, Feeding Behavior, Food Preferences, Motion, Pattern Recognition, Automated, Pattern Recognition, Physiological, Salmon classification, Scattering, Radiation, Signal Processing, Computer-Assisted, Sound, Sound Spectrography, Support Vector Machine, Time Factors, Whale, Killer physiology, Auditory Perception, Echolocation, Predatory Behavior, Salmon physiology, Time Perception, Whale, Killer psychology

Abstract

Killer whales project short broadband biosonar clicks. The broadband nature of the clicks provides good temporal resolution of echo highlights and allows for the discriminations of salmon prey. The echoes contain many highlights as the signals reflect off different surfaces and parts of the fish body and swim bladder. The temporal characteristics of echoes from salmon are highly aspect dependent and six temporal parameters were used in a support vector machine to discriminate between species. Results suggest that killer whales can classify salmon based on their echoes and provide some insight as to which features might enable the classification.

Published

2014

24. Modeling sound-source localization in sagittal planes for human listeners.

Author

Baumgartner R, Majdak P, and Laback B

Subjects

Acoustic Stimulation, Acoustics, Discrimination, Psychological, Humans, Motion, Pattern Recognition, Physiological, Psychoacoustics, Sound, Time Factors, Cues, Models, Theoretical, Sound Localization, Speech Perception

Abstract

Monaural spectral features are important for human sound-source localization in sagittal planes, including front-back discrimination and elevation perception. These directional features result from the acoustic filtering of incoming sounds by the listener's morphology and are described by listener-specific head-related transfer functions (HRTFs). This article proposes a probabilistic, functional model of sagittal-plane localization that is based on human listeners' HRTFs. The model approximates spectral auditory processing, accounts for acoustic and non-acoustic listener specificity, allows for predictions beyond the median plane, and directly predicts psychoacoustic measures of localization performance. The predictive power of the listener-specific modeling approach was verified under various experimental conditions: The model predicted effects on localization performance of band limitation, spectral warping, non-individualized HRTFs, spectral resolution, spectral ripples, and high-frequency attenuation in speech. The functionalities of vital model components were evaluated and discussed in detail. Positive spectral gradient extraction, sensorimotor mapping, and binaural weighting of monaural spatial information were addressed in particular. Potential applications of the model include predictions of psychophysical effects, for instance, in the context of virtual acoustics or hearing assistive devices.

Published

2014

25. Discrimination of foreign language speech contrasts by English monolinguals and French/English bilinguals.

Author

McKelvie-Sebileau P and Davis C

Subjects

Adult, Female, Humans, Language, Male, Models, Psychological, Pattern Recognition, Physiological, Phonation, Speech Discrimination Tests, Surveys and Questionnaires, Discrimination, Psychological physiology, Multilingualism, Phonetics, Speech Perception physiology

Abstract

The primary aim of this study was to determine whether late French/English bilinguals are able to utilize knowledge of bilabial stop contrasts that exist in each of their separate languages to discriminate bilabial stop contrasts from a new language (Thai). Secondary aims were to determine associations between bilabial stop consonant production in the L1 and the L2, between language learning factors and production and discrimination, and to compare English bilinguals' and monolinguals' discrimination. Three Thai bilabial stop consonant pairs differentiated by Voice Onset Time (VOT) (combinations of [b], [p], and [p(h)]) were presented to 28 French-English bilinguals, 25 English-French bilinguals, and 43 English monolinguals in an AX discrimination task. It was hypothesized that L2 experience would facilitate discrimination of contrasts that were phonemic in the L2 but not in the L1 for bilinguals. Only limited support for this hypothesis was found. However, results indicate that high production proficiency bilinguals had higher discrimination of the phonemic L2 contrasts (non-phonemic in L1). Discrimination patterns indicate lasting L1 influence, with similarity between unknown foreign language contrasts and L1 contrasts influencing discrimination rates. Production results show evidence for L2 influence in the L1. Results are discussed in the context of current speech perception models.

Published

2014

26. Estimating confidence intervals for information transfer analysis of confusion matrices.

Author

Azadpour M, McKay CM, and Smith RL

Subjects

Acoustic Stimulation, Bias, Computer Simulation, Humans, Noise adverse effects, Nonlinear Dynamics, Pattern Recognition, Physiological, Perceptual Masking, Signal-To-Noise Ratio, Auditory Perception, Confidence Intervals, Confusion, Information Theory, Models, Statistical

Abstract

A non-parametric bootstrapping statistical method is introduced and investigated for estimating confidence intervals resulting from information transfer (IT) analysis of confusion matrices. Confidence intervals can be used to statistically compare ITs from two or more confusion matrices obtained in an experiment. Information transfer is a nonlinear analysis and does not satisfy many of the assumptions of a parametric method. The bootstrapping method accurately estimated IT confidence intervals as long as the confusion matrices contained a sufficiently large number of presentations per stimulus category, which is also a condition for reduced bias in IT analysis.

Published

2014

27. Perception of pitch height in lexical and musical tones by English-speaking musicians and nonmusicians.

Author

Lee CY, Lekich A, and Zhang Y

Subjects

Acoustic Stimulation, Adolescent, Adult, Analysis of Variance, Audiometry, Pure-Tone, Auditory Threshold, Female, Humans, Male, Pattern Recognition, Physiological, Pitch Discrimination, Recognition, Psychology, Sex Factors, Signal Detection, Psychological, Young Adult, Language, Music, Pitch Perception, Speech Acoustics, Speech Perception, Voice Quality

Abstract

The purpose of this study was to explore the music-speech relationship by examining pitch height perception in lexical and musical tones. English-speaking musicians and nonmusicians identified multispeaker Taiwanese level tones without typical cues for speaker normalization. The musicians also identified note names of piano, viola, and pure tones without a reference pitch. In the Taiwanese task, both the musicians and nonmusicians were able to identify tone height above chance, but only for tones at the extremes of the speakers' overall vocal range. The musicians only had a slight advantage over the nonmusicians. In the music task, none of the musicians met the criterion for absolute pitch. Timbre did not affect how accurately the musical tones were identified. No correlations were found between performance in the Taiwanese task and that in the music task. It was concluded that musicians' advantage in lexical tone perception arose from the ability to track F0 contours. The ability to identify pitch height in lexical tones appears to involve calibrating acoustic input according to gender-specific, internally stored pitch templates.

Published

2014

28. Three-year-olds' production of Australian English phonemic vowel length as a function of prosodic context.

Author

Yuen I, Cox F, and Demuth K

Subjects

Adult, Age Factors, Analysis of Variance, Child Behavior, Child, Preschool, Female, Humans, Male, Pattern Recognition, Physiological, Speech Production Measurement, Time Factors, Child Language, Phonetics, Speech Acoustics, Voice Quality

Abstract

Durational contrasts are used not only to signal phrasal boundaries and focused constituents, but also to make phonemic distinctions. Boundary and focus effects can therefore interact with phonemic length contrasts, presenting a challenge for learners. Boundary effects are most clearly seen in the syllable rhyme, where the nucleus and coda are longer in utterance-final compared to utterance-medial position, the magnitude of lengthening diminishing leftward from the end of the word. In the case of focus, where the nucleus and coda are also lengthened, the magnitude of lengthening diminishes rightwards toward the end of the word. The goal of this paper was therefore to compare productions of the phonemic vowel length contrast /ɐː/ vs /ɐ/ in adults and 3-yr-old children learning Australian English in the face of competing demands from boundary and focus lengthening. The results showed that the children maintain the /ɐː/ vs /ɐ/ contrast across prosodic contexts. They are also able to implement an adult-like pattern of boundary-related lengthening, but are still developing focus-related lengthening. The findings suggest that these 3-yr-olds have good command of the phonemic vowel length contrast, but are still fine-tuning language-specific aspects of temporal organization (i.e., the vowel-coda trading relationship) within the rhyme.

Published

2014

29. Peafowl antipredator calls encode information about signalers.

Author

Yorzinski JL

Subjects

Acoustics, Animals, Body Size, Female, Male, Motion, Pattern Recognition, Physiological, Sex Factors, Signal Processing, Computer-Assisted, Social Behavior, Sound, Sound Spectrography, Time Factors, Auditory Perception, Birds physiology, Predatory Behavior, Vocalization, Animal

Abstract

Animals emit vocalizations that convey information about external events. Many of these vocalizations, including those emitted in response to predators, also encode information about the individual that produced the call. The relationship between acoustic features of antipredator calls and information relating to signalers (including sex, identity, body size, and social rank) were examined in peafowl (Pavo cristatus). The "bu-girk" antipredator calls of male and female peafowl were recorded and 20 acoustic parameters were automatically extracted from each call. Both the bu and girk elements of the antipredator call were individually distinctive and calls were classified to the correct signaler with over 90% and 70% accuracy in females and males, respectively. Females produced calls with a higher fundamental frequency (F0) than males. In both females and males, body size was negatively correlated with F0. In addition, peahen rank was related to the duration, end mean frequency, and start harmonicity of the bu element. Peafowl antipredator calls contain detailed information about the signaler and can potentially be used by receivers to respond to dangerous situations.

Published

2014

30. Contour identification with pitch and loudness cues using cochlear implants.

Author

Luo X, Masterson ME, and Wu CC

Subjects

Acoustic Stimulation, Adult, Aged, Aged, 80 and over, Audiometry, Case-Control Studies, Female, Humans, Male, Middle Aged, Pattern Recognition, Physiological, Persons With Hearing Impairments psychology, Recognition, Psychology, Cochlear Implantation instrumentation, Cochlear Implants, Correction of Hearing Impairment instrumentation, Cues, Loudness Perception, Music, Persons With Hearing Impairments rehabilitation, Pitch Perception

Abstract

Different from speech, pitch and loudness cues may or may not co-vary in music. Cochlear implant (CI) users with poor pitch perception may use loudness contour cues more than normal-hearing (NH) listeners. Contour identification was tested in CI users and NH listeners; the five-note contours contained either pitch cues alone, loudness cues alone, or both. Results showed that NH listeners' contour identification was better with pitch cues than with loudness cues; CI users performed similarly with either cues. When pitch and loudness cues were co-varied, CI performance significantly improved, suggesting that CI users were able to integrate the two cues.

Published

2014

31. Effects of tonotopicity, adaptation, modulation tuning, and temporal coherence in "primitive" auditory stream segregation.

Author

Christiansen SK, Jepsen ML, and Dau T

Subjects

Acoustic Stimulation, Adaptation, Psychological, Adult, Audiometry, Computer Simulation, Humans, Models, Neurological, Pattern Recognition, Physiological, Psychoacoustics, Sound Spectrography, Time Factors, Young Adult, Auditory Pathways physiology, Perceptual Masking, Pitch Perception, Time Perception

Abstract

The perceptual organization of two-tone sequences into auditory streams was investigated using a modeling framework consisting of an auditory pre-processing front end [Dau et al., J. Acoust. Soc. Am. 102, 2892-2905 (1997)] combined with a temporal coherence-analysis back end [Elhilali et al., Neuron 61, 317-329 (2009)]. Two experimental paradigms were considered: (i) Stream segregation as a function of tone repetition time (TRT) and frequency separation (Δf) and (ii) grouping of distant spectral components based on onset/offset synchrony. The simulated and experimental results of the present study supported the hypothesis that forward masking enhances the ability to perceptually segregate spectrally close tone sequences. Furthermore, the modeling suggested that effects of neural adaptation and processing though modulation-frequency selective filters may enhance the sensitivity to onset asynchrony of spectral components, facilitating the listeners' ability to segregate temporally overlapping sounds into separate auditory objects. Overall, the modeling framework may be useful to study the contributions of bottom-up auditory features on "primitive" grouping, also in more complex acoustic scenarios than those considered here.

Published

2014

32. Fusion of spatially separated vowel formant cues.

Author

Takanen M, Raitio T, Santala O, Alku P, and Pulkki V

Subjects

Acoustic Stimulation, Adult, Audiometry, Speech, Auditory Threshold, Humans, Male, Pattern Recognition, Physiological, Recognition, Psychology, Sound Localization, Time Factors, Young Adult, Cues, Speech Acoustics, Speech Perception, Voice Quality

Abstract

Previous studies on fusion in speech perception have demonstrated the ability of the human auditory system to group separate components of speech-like sounds together and consequently to enable the identification of speech despite the spatial separation between the components. Typically, the spatial separation has been implemented using headphone reproduction where the different components evoke auditory images at different lateral positions. In the present study, a multichannel loudspeaker system was used to investigate whether the correct vowel is identified and whether two auditory events are perceived when a noise-excited vowel is divided into two components that are spatially separated. The two components consisted of the even and odd formants. Both the amount of spatial separation between the components and the directions of the components were varied. Neither the spatial separation nor the directions of the components affected the vowel identification. Interestingly, an additional auditory event not associated with any vowel was perceived at the same time when the components were presented symmetrically in front of the listener. In such scenarios, the vowel was perceived from the direction of the odd formant components.

Published

2013

33. Bottlenose dolphin (Tursiops truncatus) detection of simulated echoes from normal and time-reversed clicks.

Author

Finneran JJ, Wu T, Borror N, Tormey M, Brewer A, Black A, and Bakhtiari K

Subjects

Acoustics, Animals, Computer Simulation, Female, Male, Pattern Recognition, Physiological, Psychoacoustics, Signal Processing, Computer-Assisted, Sound Spectrography, Time Factors, Auditory Perception, Bottle-Nosed Dolphin physiology, Bottle-Nosed Dolphin psychology, Echolocation, Vocalization, Animal

Abstract

In matched filter processing, a stored template of the emitted sonar pulse is compared to echoes to locate individual replicas of the emitted pulse embedded in the echo stream. A number of experiments with bats have suggested that bats utilize matched filter processing for target ranging, but not for target detection. For dolphins, the few available data suggest that dolphins do not utilize matched filter processing. In this study, the effect of time-reversing a dolphin's emitted click was investigated. If the dolphin relied upon matched filter processing, time-reversal of the click would be expected to reduce the correlation between the (unaltered) click and the echoes and therefore lower detection performance. Two bottlenose dolphins were trained to perform a phantom echo detection task. On a small percentage of trials ("probe trials"), a dolphin's emitted click was time-reversed before interacting with the phantom echo system. Data from the normal and time-reversed trials were then analyzed and compared. There were no significant differences in detection performance or click emissions between the normal and time-reversed conditions for either subject, suggesting that the dolphins did not utilize matched filter processing for this echo detection task.

Published

2013

34. Voice segregation by difference in fundamental frequency: effect of masker type.

Author

Deroche ML and Culling JF

Subjects

Acoustic Stimulation, Adult, Auditory Threshold, Cues, Humans, Male, Recognition, Psychology, Speech Reception Threshold Test, Young Adult, Noise adverse effects, Pattern Recognition, Physiological, Perceptual Masking, Pitch Perception, Speech Acoustics, Speech Intelligibility, Speech Perception, Voice Quality

Abstract

Speech reception thresholds were measured for a voice against two different maskers: Either two concurrent voices with the same fundamental frequency (F0) or a harmonic complex with the same long-term excitation pattern and broadband temporal envelope as the masking sentences (speech-modulated buzz). All sources had steady F0s. A difference in F0 of 2 or 8 semitones provided a 5-dB benefit for buzz maskers, whereas it provided a 3- and 8-dB benefit, respectively, for masking sentences. Whether intelligibility of a voice increases abruptly with small ΔF0s or gradually toward larger ΔF0s seems to depend on the nature of the masker.

Published

2013

35. Hearing tongue loops: perceptual sensitivity to acoustic signatures of articulatory dynamics.

Author

Nam H, Mooshammer C, Iskarous K, and Whalen DH

Subjects

Acoustic Stimulation, Audiometry, Speech, Biomechanical Phenomena, Discrimination, Psychological, Female, Humans, Male, Movement, Pattern Recognition, Physiological, Phonetics, Sound Spectrography, Time Factors, Speech Acoustics, Speech Perception, Tongue physiology, Voice Quality

Abstract

Previous work has shown that velar stops are produced with a forward movement during closure, forming a forward (anterior) loop for a VCV sequence, when the preceding vowels are back or mid. Are listeners aware of this aspect of articulatory dynamics? The current study used articulatory synthesis to examine how such kinematic patterns are reflected in the acoustics, and whether those acoustic patterns elicit different goodness ratings. In Experiment I, the size and direction of loops was modulated in articulatory synthesis. The resulting stimuli were presented to listeners for a naturalness judgment. Results show that listeners rate forward loops as more natural than backward loops, in agreement with typical productions. Acoustic analysis of the synthetic stimuli shows that forward loops exhibit shorter and shallower VC transitions than CV transitions. In Experiment II, three acoustic parameters were employed incorporating F3-F2 distance, transition slope, and transition length to systematically modulate the magnitude of VC and CV transitions. Listeners rated the naturalness in accord with those of Experiment I. This study reveals that there is sufficient information in the acoustic signature of "velar loops" to affect perceptual preference. Similarity to typical productions seemed to determine preferences, not acoustic distinctiveness.

Published

2013

36. Hearing sensitivity to shifts of rippled-spectrum patterns.

Author

Nechaev DI and Supin AY

Subjects

Adult, Audiometry, Humans, Middle Aged, Models, Psychological, Pattern Recognition, Physiological, Psychoacoustics, Signal Detection, Psychological, Sound Spectrography, Time Factors, Young Adult, Acoustic Stimulation methods, Auditory Pathways physiology, Auditory Threshold, Hearing, Pitch Perception

Abstract

The sensitivity of human hearing to shifts in rippled spectrum patterns of sound was investigated. The test signal was band-limited rippled noise with spectrum ripples of various frequency spacing and bandwidth; this type of sound may be considered as a quantitatively controlled imitation of complex natural sounds. The listener was required to detect a shift in the spectrum ripple phase while keeping the other parameters of the noise constant. For cosine-shaped ripples, the lowest threshold (1.1%) was found at a ripple frequency of 3.5 ripples per octave (rpo), which corresponds to a ripple spacing of 20% of the center frequency. The threshold increased for both lower and higher ripple densities. Qualitatively similar patterns of threshold dependence on ripple density were observed for center frequencies from 1 to 4 kHz. Making the ripples narrower than cosine decreased the thresholds to 0.7%-0.75% for ripple densities of 2-5 rpo. Keeping the ripple width constant at 3.5%-7.5% of the frequency resulted in a monotonic threshold dependence on ripple density: The threshold decreased with decreasing density (down to 0.7%). An excitation-pattern model explains qualitatively the observed dependence of the ripple-phase shift threshold on ripple pattern parameters.

Published

2013

37. Place specificity measured in forward and interleaved masking in cochlear implants.

Author

Azadpour M, AlJasser A, and McKay CM

Subjects

Acoustic Stimulation, Aged, Auditory Threshold, Female, Humans, Male, Middle Aged, Pattern Recognition, Physiological, Persons With Hearing Impairments psychology, Cochlear Implantation instrumentation, Cochlear Implants, Correction of Hearing Impairment instrumentation, Noise adverse effects, Perceptual Masking, Persons With Hearing Impairments rehabilitation, Sound Localization

Abstract

Interleaved masking in cochlear implants is analogous to acoustic simultaneous masking and is relevant to speech processing strategies that interleave pulses on concurrently activated electrodes. In this study, spatial decay of masking as the distance between masker and probe increases was compared between forward and interleaved masking in the same group of cochlear implant users. Spatial masking patterns and the measures of place specificity were similar between forward and interleaved masking. Unlike acoustic hearing where broader tuning curves are obtained in simultaneous masking, the type of masking experiment did not influence the measure of place specificity in cochlear implants.

Published

2013

38. Perceived listening effort for a tonal task with contralateral competing signals.

Author

Bologna WJ, Chatterjee M, and Dubno JR

Subjects

Acoustic Stimulation, Adolescent, Adult, Auditory Threshold, Female, Humans, Male, Pattern Recognition, Physiological, Signal Detection, Psychological, Young Adult, Noise adverse effects, Perceptual Masking, Pitch Perception, Speech, Speech Perception

Abstract

Perceived listening effort was assessed for a monaural irregular-rhythm detection task while competing signals were presented to the contralateral ear. When speech was the competing signal, listeners reported greater listening effort compared to either contralateral steady-state noise or no competing signal. Behavioral thresholds for irregular-rhythm detection were unaffected by competing speech, indicating that listeners compensated for this competing signal with effortful listening. These results suggest that perceived listening effort may be associated with suppression of task-irrelevant information, even for conditions where informational masking and competition for linguistic processing resources would not be expected.

Published

2013

39. The use of confusion patterns to evaluate the neural basis for concurrent vowel identification.

Author

Chintanpalli A and Heinz MG

Subjects

Acoustic Stimulation, Adult, Algorithms, Audiometry, Speech, Auditory Threshold, Computer Simulation, Cues, Humans, Models, Neurological, Perceptual Masking, Sound Spectrography, Time Factors, Young Adult, Cochlear Nerve physiology, Confusion, Pattern Recognition, Physiological, Recognition, Psychology, Speech Acoustics, Speech Perception, Voice Quality

Abstract

Normal-hearing listeners take advantage of differences in fundamental frequency (F0) to segregate competing talkers. Computational modeling using an F0-based segregation algorithm and auditory-nerve temporal responses captures the gradual improvement in concurrent-vowel identification with increasing F0 difference. This result has been taken to suggest that F0-based segregation is the basis for this improvement; however, evidence suggests that other factors may also contribute. The present study further tested models of concurrent-vowel identification by evaluating their ability to predict the specific confusions made by listeners. Measured human confusions consisted of at most one to three confusions per vowel pair, typically from an error in only one of the two vowels. An improvement due to F0 difference was correlated with spectral differences between vowels; however, simple models based on acoustic and cochlear spectral patterns predicted some confusions not made by human listeners. In contrast, a neural temporal model was better at predicting listener confusion patterns. However, the full F0-based segregation algorithm using these neural temporal analyses was inconsistent across F0 difference in capturing listener confusions, being worse for smaller differences. The inability of this commonly accepted model to fully account for listener confusions suggests that other factors besides F0 segregation are likely to contribute.

Published

2013

40. Psychometric properties associated with perceived vocal roughness using a matching task.

Author

Eddins DA and Shrivastav R

Subjects

Acoustic Stimulation, Adolescent, Adult, Auditory Threshold, Humans, Judgment, Observer Variation, Pattern Recognition, Physiological, Reproducibility of Results, Young Adult, Audiometry, Speech methods, Psychoacoustics, Speech Acoustics, Speech Perception, Voice Quality

Abstract

A psychophysical matching paradigm has been used to better quantify voice quality under laboratory conditions. The goals of this study were to establish which of two candidate comparison stimuli would best ensure that the range of perceived vocal roughness could be adequately bracketed using a matching task and to provide a general solution to the problem of estimating vocal roughness. Psychometric functions for roughness matching indicated that a speech-like sawtooth-plus-noise complex (20 dB signal-to-noise ratio) amplitude modulated by a sinusoidal function raised to the 4th power yielded a comparison stimulus with a perceptual dynamic range well suited for roughness matching.

Published

2013

41. The information-divergence hypothesis of informational masking.

Author

Lutfi RA, Gilbertson L, Heo I, Chang AC, and Stamas J

Subjects

Acoustic Stimulation, Audiometry, Auditory Threshold, Female, Humans, Male, Models, Statistical, Noise adverse effects, Pattern Recognition, Physiological, Pitch Discrimination, Recognition, Psychology, Sound Localization, Speech Perception, Time Factors, Uncertainty, Young Adult, Auditory Pathways physiology, Auditory Perception, Models, Psychological, Perceptual Masking, Signal Detection, Psychological

Abstract

In recent years there has been growing interest in masking that cannot be attributed to interactions in the cochlea-so--called informational masking (IM). Similarity in the acoustic properties of target and masker and uncertainty regarding the masker are the two major factors identified with IM. These factors involve quite different manipulations of signals and are believed to entail fundamentally different processes resulting in IM. Here, however, evidence is presented that these factors affect IM through their mutual influence on a single factor-the information divergence of target and masker given by Simpson-Fitter's da [Lutfi et al. (2012). J. Acoust. Soc. Am. 132, EL109-113]. Four experiments are described involving multitone pattern discrimination, multi-talker word recognition, sound-source identification, and sound localization. In each case standard manipulations of masker uncertainty and target-masker similarity (including the covariation of target-masker frequencies) are found to have the same effect on performance provided they produce the same change in da. The function relating d(') performance to da, moreover, appears to be linear with constant slope across listeners. The overriding dependence of IM on da is taken to reflect a general principle of perception that exploits differences in the statistical structure of signals to separate figure from ground.

Published

2013

42. Vocabulary influences older and younger listeners' processing of dysarthric speech.

Author

McAuliffe MJ, Gibson EM, Kerr SE, Anderson T, and LaShell PJ

Subjects

Acoustic Stimulation, Adolescent, Age Factors, Aged, Audiometry, Pure-Tone, Audiometry, Speech, Auditory Threshold, Cues, Dysarthria psychology, Female, Hearing, Humans, Male, Middle Aged, Pattern Recognition, Physiological, Recognition, Psychology, Young Adult, Dysarthria physiopathology, Phonetics, Speech Acoustics, Speech Perception, Vocabulary, Voice Quality

Abstract

This study examined younger (n = 16) and older (n = 16) listeners' processing of dysarthric speech-a naturally occurring form of signal degradation. It aimed to determine how age, hearing acuity, memory, and vocabulary knowledge interacted in speech recognition and lexical segmentation. Listener transcripts were coded for accuracy and pattern of lexical boundary errors. For younger listeners, transcription accuracy was predicted by receptive vocabulary. For older listeners, this same effect existed but was moderated by pure-tone hearing thresholds. While both groups employed syllabic stress cues to inform lexical segmentation, older listeners were less reliant on this perceptual strategy. The results were interpreted to suggest that individuals with larger receptive vocabularies, with their presumed greater language familiarity, were better able to leverage cue redundancies within the speech signal to form lexical hypothesis-leading to an improved ability to comprehend dysarthric speech. This advantage was minimized as hearing thresholds increased. While the differing levels of reliance on stress cues across the listener groups could not be attributed to specific individual differences, it was hypothesized that some combination of larger vocabularies and reduced hearing thresholds in the older participant group led to them prioritize lexical cues as a segmentation frame.

Published

2013

43. Evidence for a spatial bias in the perception of sequences of brief tones.

Author

Rocchesso D, Lemaitre G, and Grassi M

Subjects

Acoustic Stimulation, Adult, Audiometry, Pure-Tone, Dichotic Listening Tests, Female, Humans, Male, Pattern Recognition, Physiological, Psychoacoustics, Time Factors, Young Adult, Pitch Perception, Time Perception

Abstract

Listeners are unable to report the physical order of particular sequences of brief tones. This phenomenon of temporal dislocation depends on tone durations and frequencies. The current study empirically shows that it also depends on the spatial location of the tones. Dichotically testing a three-tone sequence showed that the central tone tends to be reported as the first or the last element when it is perceived as part of a left-to-right motion. Since the central-tone dislocation does not occur for right-to-left sequences of the same tones, this indicates that there is a spatial bias in the perception of sequences.

Published

2013

44. The function of male sperm whale slow clicks in a high latitude habitat: communication, echolocation, or prey debilitation?

Author

Oliveira C, Wahlberg M, Johnson M, Miller PJ, and Madsen PT

Subjects

Acoustics, Animals, Ecosystem, Environmental Monitoring, Male, Oceans and Seas, Pattern Recognition, Physiological, Signal Processing, Computer-Assisted, Sound Spectrography, Time Factors, Echolocation, Predatory Behavior, Sperm Whale physiology, Vocalization, Animal

Abstract

Sperm whales produce different click types for echolocation and communication. Usual clicks and buzzes appear to be used primarily in foraging while codas are thought to function in social communication. The function of slow clicks is less clear, but they appear to be produced by males at higher latitudes, where they primarily forage solitarily, and on the breeding grounds, where they roam between groups of females. Here the behavioral context in which these vocalizations are produced and the function they may serve was investigated. Ninety-nine hours of acoustic and diving data were analyzed from sound recording tags on six male sperm whales in Northern Norway. The 755 slow clicks detected were produced by tagged animals at the surface (52%), ascending from a dive (37%), and during the bottom phase (11%), but never during the descent. Slow clicks were not associated with the production of buzzes, other echolocation clicks, or fast maneuvering that would indicate foraging. Some slow clicks were emitted in seemingly repetitive temporal patterns supporting the hypothesis that the function for slow clicks on the feeding grounds is long range communication between males, possibly relaying information about individual identity or behavioral states.

Published

2013

45. The role of pitch and timing cues in the perception of phrasal grouping in Seoul Korean.

Author

Jeon HS and Nolan F

Subjects

Acoustic Stimulation, Adolescent, Adult, Audiometry, Speech, Female, Humans, Male, Pattern Recognition, Physiological, Time Factors, Young Adult, Cues, Phonetics, Pitch Discrimination, Speech Acoustics, Speech Perception, Time Perception, Voice Quality

Abstract

This paper reports two experiments in which listeners detected prosodic group boundaries in Seoul Korean speech, investigating how pitch and timing cues collaborate or compete with each other. Two types of timing cues, compensatory lengthening and group-final lengthening, were employed. The results show that both pitch and timing have demarcative functions which are exploited by listeners. However, listeners relied more on timing than pitch and this may be because in the experiments the pitch contour variations were limited to a small number of phonological categories, whereas temporal variations were more gradient. In addition, group-final lengthening was a more robust cue to the prosodic boundary than compensatory lengthening, and the integration of pitch and timing cues seems to be context-dependent. The results highlight the significance of local information in the universal grouping process and that the precise nature of the cues affect the way they integrate in perception.

Published

2013

46. Absolute pitch is associated with a large auditory digit span: a clue to its genesis.

Author

Deutsch D and Dooley K

Subjects

Acoustic Stimulation, Adult, Female, Humans, Male, Music, Neuropsychological Tests, Pattern Recognition, Physiological, Photic Stimulation, Visual Perception, Young Adult, Mental Recall, Pitch Discrimination, Recognition, Psychology, Speech Acoustics

Abstract

Auditory and visual digit span tests were administered to a group of absolute pitch (AP) possessors, and a group of AP nonpossessors matched for age, and for age of onset and duration of musical training. All subjects were speakers of English. The AP possessors substantially and significantly outperformed the nonpossessors on the auditory test, while the two groups did not differ significantly on the visual test. It is conjectured that a large auditory memory span, including memory for speech sounds, facilitates the development of associations between pitches and their verbal labels early in life, so promoting the acquisition of AP.

Published

2013

47. Rate and onset cues can improve cochlear implant synthetic vowel recognition in noise.

Author

Mc Laughlin M, Reilly RB, and Zeng FG

Subjects

Acoustic Stimulation, Adult, Aged, Analysis of Variance, Audiometry, Speech, Case-Control Studies, Comprehension, Electric Stimulation, Female, Humans, Loudness Perception, Male, Middle Aged, Pattern Recognition, Physiological, Persons With Hearing Impairments psychology, Prosthesis Design, Psychoacoustics, Speech Acoustics, Speech Intelligibility, Time Factors, Cochlear Implantation instrumentation, Cochlear Implants, Correction of Hearing Impairment psychology, Cues, Noise adverse effects, Perceptual Masking, Persons With Hearing Impairments rehabilitation, Recognition, Psychology, Speech Perception

Abstract

Understanding speech-in-noise is difficult for most cochlear implant (CI) users. Speech-in-noise segregation cues are well understood for acoustic hearing but not for electric hearing. This study investigated the effects of stimulation rate and onset delay on synthetic vowel-in-noise recognition in CI subjects. In experiment I, synthetic vowels were presented at 50, 145, or 795 pulse/s and noise at the same three rates, yielding nine combinations. Recognition improved significantly if the noise had a lower rate than the vowel, suggesting that listeners can use temporal gaps in the noise to detect a synthetic vowel. This hypothesis is supported by accurate prediction of synthetic vowel recognition using a temporal integration window model. Using lower rates a similar trend was observed in normal hearing subjects. Experiment II found that for CI subjects, a vowel onset delay improved performance if the noise had a lower or higher rate than the synthetic vowel. These results show that differing rates or onset times can improve synthetic vowel-in-noise recognition, indicating a need to develop speech processing strategies that encode or emphasize these cues.

Published

2013

48. Perceptual learning for speech in noise after application of binary time-frequency masks.

Author

Ahmadi M, Gross VL, and Sinex DG

Subjects

Acoustic Stimulation, Adult, Audiometry, Speech, Auditory Threshold, Comprehension, Female, Humans, Male, Pattern Recognition, Physiological, Psychoacoustics, Recognition, Psychology, Sound Spectrography, Speech Intelligibility, Time Factors, Young Adult, Learning, Noise adverse effects, Perceptual Masking, Speech Perception

Abstract

Ideal time-frequency (TF) masks can reject noise and improve the recognition of speech-noise mixtures. An ideal TF mask is constructed with prior knowledge of the target speech signal. The intelligibility of a processed speech-noise mixture depends upon the threshold criterion used to define the TF mask. The study reported here assessed the effect of training on the recognition of speech in noise after processing by ideal TF masks that did not restore perfect speech intelligibility. Two groups of listeners with normal hearing listened to speech-noise mixtures processed by TF masks calculated with different threshold criteria. For each group, a threshold criterion that initially produced word recognition scores between 0.56-0.69 was chosen for training. Listeners practiced with one set of TF-masked sentences until their word recognition performance approached asymptote. Perceptual learning was quantified by comparing word-recognition scores in the first and last training sessions. Word recognition scores improved with practice for all listeners with the greatest improvement observed for the same materials used in training.

Published

2013

49. Reliability of human-supervised formant-trajectory measurement for forensic voice comparison.

Author

Zhang C, Morrison GS, Ochoa F, and Enzinger E

Subjects

Adult, Female, Humans, Middle Aged, Models, Statistical, Observer Variation, Pattern Recognition, Physiological, Recognition, Psychology, Reproducibility of Results, Signal Processing, Computer-Assisted, Software, Sound Spectrography, Speech Production Measurement, Telephone, Time Factors, Young Adult, Acoustics, Forensic Sciences methods, Phonetics, Speech Acoustics, Voice Quality

Abstract

Acoustic-phonetic approaches to forensic voice comparison often include human-supervised measurement of vowel formants, but the reliability of such measurements is a matter of concern. This study assesses the within- and between-supervisor variability of three sets of formant-trajectory measurements made by each of four human supervisors. It also assesses the validity and reliability of forensic-voice-comparison systems based on these measurements. Each supervisor's formant-trajectory system was fused with a baseline mel-frequency cepstral-coefficient system, and performance was assessed relative to the baseline system. Substantial improvements in validity were found for all supervisors' systems, but some supervisors' systems were more reliable than others.

Published

2013

50. Behavioral evidence for auditory induction in a species of rodent: Mongolian gerbil (Meriones unguiculatus).

Author

Kobayasi KI, Usami A, and Riquimaroux H

Subjects

Acoustic Stimulation, Animals, Conditioning, Operant, Male, Pattern Recognition, Physiological, Time Factors, Auditory Perception, Behavior, Animal, Discrimination, Psychological, Gerbillinae physiology, Noise adverse effects

Abstract

When a segment of sound of interest is interrupted by a loud extraneous noise, humans perceive that the missing sound continues during the intrusive noise. This restoration of auditory information occurs in perceptions of both speech and non-speech sounds (e.g., tone bursts), a phenomenon referred to as auditory induction. In this study, Mongolian gerbils were trained with standard Go/No-Go operant conditioning to discriminate continuous tone bursts (the Go stimulus) from tone bursts with a silent gap in the middle (the No-Go stimulus). Noise was added to Go and No-Go stimuli to determine the condition under which induction would occur. The Mongolian gerbils engaged in Go responses to No-Go stimuli only when the noise spectrally surrounding the tone was of the same duration as the silent portion of the No-Go stimulus; these results match those previously reported in primates (humans and macaque monkeys). The result presents not only the evidence of the auditory induction in a rodent species but also suggests that similar mechanisms for restoring missing sounds are shared among mammals. Additionally, our findings demonstrated that the rodent can serve as a valuable animal model for future studies of perceptual restoration.

Published

2012