Different voice part perceptions in polyphonic and homophonic musical textures

Ishida K., Nittono H.. Different voice part perceptions in polyphonic and homophonic musical textures. Psychology of Music, © 2024 The Author(s). DOI : https://doi.org/10.1177/03057356241271027.Separate voice part perception has been shown in polyphonic music. However, it remains unclear whether this segregation of voice parts is specific to polyphony or also occurs in homophonic music. This study compared voice part perceptions in polyphony and homophony using a redundant signals effect (RSE) paradigm. The RSE means that reaction times are shorter for two simultaneously presented signals than for one of these signals. At the final position of the four-voice homophonic and polyphonic sequences, notes in two voice parts were altered to out-of-key notes independently or simultaneously. Participants (N = 208) responded to any deviant tones while withholding responses to non-deviant tones. All combinations of deviant voice parts (i.e., soprano–bass, tenor–bass, and alto–tenor) elicited RSEs in polyphonic and homophonic sequences, suggesting separate voice part perception, irrespective of musical texture. However, evidence of the coactivation of separate perceptual modules was obtained only for polyphonic sequences. Deviants in higher voice parts were detected faster and more accurately than those in lower voice parts in both musical textures. These results indicate that voice parts are perceived separately, with a bias toward higher voice parts in both musical textures, but voice parts are more segregated in polyphony

Voluntary stimulus production enhances deviance processing in the brain

Humans often get information by voluntary action. However, little is known about how stimulus processing is modulated by self-production of stimuli. In the present study, event-related brain potentials were recorded from 16 student volunteers performing an auditory three-stimulus oddball task in two conditions. In the self condition, the stimuli were triggered by participants' voluntary button presses. In the auto condition, the same stimuli were presented automatically by a computer with the same interstimulus intervals as those in the self condition. Perceptually deviant nontarget stimuli elicited a larger P3 and a larger subsequent positivity in the self condition than in the auto condition, whereas low-deviant target stimuli elicited a P3 with equally high amplitude in both conditions. The findings suggest that voluntary stimulus production enhances orienting of attention (reflected in the P3a component) and subsequent memory updating (reflected in the P3b component) for deviant stimuli, but does not affect the response to task-relevant stimuli. Voluntary action may activate the perceptual representation of its most frequent outcomes and this anticipatory activation may make deviant stimuli more salient in the context

Decoding predicted musical notes from omitted stimulus potentials

Ishida K., Ishida T., Nittono H.. Decoding predicted musical notes from omitted stimulus potentials. Scientific Reports 14, 11164 (2024); https://doi.org/10.1038/s41598-024-61989-1.Electrophysiological studies have investigated predictive processing in music by examining event-related potentials (ERPs) elicited by the violation of musical expectations. While several studies have reported that the predictability of stimuli can modulate the amplitude of ERPs, it is unclear how specific the representation of the expected note is. The present study addressed this issue by recording the omitted stimulus potentials (OSPs) to avoid contamination of bottom-up sensory processing with top-down predictive processing. Decoding of the omitted content was attempted using a support vector machine, which is a type of machine learning. ERP responses to the omission of four target notes (E, F, A, and C) at the same position in familiar and unfamiliar melodies were recorded from 25 participants. The results showed that the omission N1 were larger in the familiar melody condition than in the unfamiliar melody condition. The decoding accuracy of the four omitted notes was significantly higher in the familiar melody condition than in the unfamiliar melody condition. These results suggest that the OSPs contain discriminable predictive information, and the higher the predictability, the more the specific representation of the expected note is generated

Music Instruments That Produce Sounds with Inaudible High-Frequency Components <Research Material>

Many kinds of audio-visual information from daily life have been digitized. Digitization accuracy is important to perceptions or evaluations of audio naturalness, and to listener comfort during the listening experience. High-resolution digital sound sources with inaudible high-frequency components (>20 kHz) have become available, owing to recent advances in information and communications technology. However, the effects of sounds that feature such components on human psychophysiological processes have not been sufficiently discussed. One of the reasons for this dearth of research could be that it remains unclear what musical instruments produce sounds with such components. In this technical note, we introduce some percussion instruments that produce sounds with inaudible high-frequency components, and present sound spectra and spectrograms of those sounds. High-frequency components in excess of 20 kHz appeared, in abundance, in the rising phase—but not in the falling phase—of a sound wave. In a sound wave of a tambourine, high-frequency components appeared not only in the rising phase but also in the falling phase. The tambourine sound could be a feasible study subject, given how it features abundant inaudible high-frequency components; it could be used to examine the effects of sounds that feature them on human psychophysiological processes.本稿は，JSPS科研費(15J06118)の助成を受けた研究の一環である

The Use of Event-Related Potentials in Psychological Research

Event-related potentials (ERPs) are voltage fluctuations of the brain that are time-locked to some physical or mental occurrence. These potentials can be recorded safely from the human scalp and provide valuable information about the brain activity associated with perception, cognition, and behavior. This paper deals with theoretical issues concerning the use of ERPs in psychological research. Following a brief description of the basic method of ERP recording, technical problems that can occur in the recording and analysis of the ERP were discussed (e.g., ocular artifacts, averaging, and individual differences). Then, the problems of isolating and interpreting ERP components were addressed. Finally, the relationship between the ERP and other psychological measures was discussed in the light of functional systems of the brain. It was concluded that the ERP can serve as a valuable tool in psychological research only if it is combined with other psychological measures

Event-related potentials elicited by unexpected visual stimuli after voluntary actions

Event-related potentials from visual stimuli that were presented after voluntary actions were recorded to examine how people expect their action effects. Participants pressed a button in response to a cue stimulus (L or R) either in the fixed condition where participants always pressed a center button or in the choice condition where they selectively pressed the corresponding left or right button. Immediately after the button press, a second stimulus (left or right) was presented visually to inform that their action was registered. When the second stimulus did not match the cue stimulus (p = .20), a late positive potential (LPP) with a posterior scalp distribution occurred in a latency range of 500-700 ms. The amplitude of this mismatch-related LPP was larger in the choice condition than in the fixed condition. The results suggest that the cognitive mismatch between the expected and actual action effects is reflected in the LPP, and the selection of a specific action strengthens the expectation of its action effect

Level of interest in video clips modulates event-related potentials to auditory probes

This study examined whether a participant's level of interest in visual materials could be assessed by event-related potentials to auditory probe stimuli. Twelve young adults performed an auditory target detection task while viewing either interesting or less interesting (neutral) silent video clips. The auditory probe stimuli consisted of target (2000 Hz, p=0.15), standard (1800 Hz, p=0.70), and nontarget deviant (500 Hz, p=0.15) tones. Button press responses to target tones were required. Both target and deviant tones elicited a large P3 wave, the amplitude of which was smaller while participants were viewing interesting video clips than neutral video clips or simple still images (control condition). The amplitude reduction of the P3 to deviant tones was more prominent than that of the P3 to target tones. The difference between the neutral and control conditions was significant only for the deviant P3. The three-tone probe task using perceptually deviant, nontarget stimuli may be a useful objective method to assess how strongly a visual material attracts the viewer's attention