3,640 results on '"MUSICAL perception"'
Search Results
2. Associations between major depressive disorder and performance-based and self-reported music cognition.
- Author
-
Treviño-Soto, Mariana, Gorozpe-Camargo, Santiago, Cejudo-Camarena, Álvaro, Fernández-Palacios, María Elena, Uzárraga-Andrade, Ana Claudia, Alamillo-Cuéllar, Ana Isabel, and Toledo-Fernández, Aldebarán
- Subjects
MENTAL depression ,COGNITION disorders ,PATHOLOGICAL psychology ,MENTAL fatigue ,MEMORY disorders ,MUSICAL perception - Abstract
Background: There is evidence that major depressive disorder (MDD) comes with multiple cognitive impairments including deficits in perception and memory. Music cognition is one of the least explored cognitive functions in relation to MDD, with some studies pointing to mild amusic deficits. These findings, however, are derived only from performance-based tests. Our objectives were to explore differences in music perception and memory between individuals with MDD and a control group, in both performance test and self-report of amusic dysfunction, and to assess the correlation between these measures. Method: We recruited 62 participants, including MDD individuals (n = 34) diagnosed with the Mini International Neuropsychiatric Interview and controls (n = 18). All the participants were evaluated with the Montreal Battery for Evaluation of Amusia (MBEA) and the Amusic Dysfunction Inventory (ADI). Results: None of the assessed dimensions from the MBEA or the ADI showed statistical differences between groups. Some significant associations were found between ADI's Vocal Production and the MBEA's three tests of the melodic dimension (Scale, Contour and Interval) and between MBEA's Scale and Memory, Meter and ADI's Melodic Perception, and tests of Memory from each respective instrument. Conclusion: Results suggest that perception and memory of basic music stimuli are not among the cognitive deficits within MDD, however, they may be indirectly affected by other cognitive phenomena common to this psychopathology, such as poor sustained concentration due to mental fatigue. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
3. Estimating Pitch Information From Simulated Cochlear Implant Signals With Deep Neural Networks.
- Author
-
Ashihara, Takanori, Furukawa, Shigeto, and Kashino, Makio
- Subjects
COMPUTER simulation ,COCHLEAR implants ,RESEARCH funding ,NEUROPLASTICITY ,MUSICAL perception ,SIGNAL processing ,HEART beat ,ARTIFICIAL neural networks ,DEEP learning ,SPEECH perception ,MUSICAL pitch ,HEARING impaired - Abstract
Cochlear implant (CI) users, even with substantial speech comprehension, generally have poor sensitivity to pitch information (or fundamental frequency, F0). This insensitivity is often attributed to limited spectral and temporal resolution in the CI signals. However, the pitch sensitivity markedly varies among individuals, and some users exhibit fairly good sensitivity. This indicates that the CI signal contains sufficient information about F0, and users' sensitivity is predominantly limited by other physiological conditions such as neuroplasticity or neural health. We estimated the upper limit of F0 information that a CI signal can convey by decoding F0 from simulated CI signals (multi-channel pulsatile signals) with a deep neural network model (referred to as the CI model). We varied the number of electrode channels and the pulse rate, which should respectively affect spectral and temporal resolutions of stimulus representations. The F0-estimation performance generally improved with increasing number of channels and pulse rate. For the sounds presented under quiet conditions, the model performance was at best comparable to that of a control waveform model, which received raw-waveform inputs. Under conditions in which background noise was imposed, the performance of the CI model generally degraded by a greater degree than that of the waveform model. The pulse rate had a particularly large effect on predicted performance. These observations indicate that the CI signal contains some information for predicting F0, which is particularly sufficient for targets under quiet conditions. The temporal resolution (represented as pulse rate) plays a critical role in pitch representation under noisy conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
4. Study protocol of a randomized control trial on the effectiveness of improvisational music therapy for autistic children.
- Author
-
Jaschke, A. C., Howlin, C., Pool, J., Greenberg, Y. D., Atkinson, R., Kovalova, A., Merriam, E., Pallás-Ferrer, I., Williams, S., Moore, C., Hayden, K., Allison, C., Odell-Miller, H., and Baron-Cohen, S.
- Subjects
- *
MUSIC therapy , *AUTISTIC children , *AUTISM spectrum disorders , *WECHSLER Adult Intelligence Scale , *ENVIRONMENTAL music , *STUTTERING , *MUSICAL perception - Abstract
Background: Music therapy is the clinical use of musical interventions to improve mental and physical health across multiple domains, including social communication. Autistic children, who have difficulties in social communication and often increased anxiety, tend to show a strong preference for music, because it can be structured and systematic, and therefore more predictable than social interaction. This makes music therapy a promising medium for therapeutic support and intervention. Previous clinical trials of music therapy compared to traditional therapy for autistic children have shown encouraging but nevertheless mixed results. Key aims: The primary aim is to conduct a randomised controlled trial (RCT) of improvisational music therapy for autistic children and test its effectiveness in at improving social communication and wellbeing, and to reduce anxiety. Research plan: The RCT will be conducted with 200 autistic children in the UK aged 7 to 11 years old. Participants will be randomly assigned to either improvisational music therapy or support as usual. The trial will be an assessor-blind, pragmatic two-arm cluster RCT comparing the impact of 12-weeks of improvisational music therapy in addition to support as usual, vs. support as usual for autistic children. Methods: Researchers who are blind to which arm the children are in will conduct assessments and obtain data via caregiver reports. The primary outcome will be the absolute change in the total score of the Brief Observation of Social Communication Change (BOSCC) assessed at baseline, T1 (13 weeks) and T2 (39 weeks) follow-ups. The BOSCC consists of specific items that were developed to identify changes in social-communication behaviours. Secondary outcome measures include: (1) Parent reported anxiety scale for youth with ASD (Note that we do not use the term 'ASD' or Autism Spectrum Disorder, because many autistic people feel it is stigmatising. Instead, we use the term 'autism') (PRAS-ASD) (2) Young Child Outcome Rating Scale, for wellbeing (YCORS), (3) Strengths and Difficulties Questionnaire (SDQ); and (4) Vineland Adaptive Behaviour Scale (VABS). (5) The Children's Communication Checklist-2 (CCC-2) will be completed to evaluate pragmatic speech with fluent speakers only; (6) The Music Engagement Scale (MES); and (7) Assessment of the Quality of Relationship (AQR) will be used to evaluate the child-therapist relationships using video-analysis of music therapy sessions. Additional data will be collected by administering the Wechsler Abbreviated Scale of Intelligence (WASI-II), Music at Home Questionnaire (M@H), and children's versions of the Empathy Quotient (EQ) and Systemizing Quotient (SQ). Audio and video data from the therapy sessions will be collected and analysed (using both human and computer-based feature-coding, e.g., machine learning and AI-driven methods) to identify how music and non-musical interactions foster change throughout the therapy. Discussion: This study aims to observe if the interactions, engagement, and therapeutic modalities fostered during music therapy sessions can translate to non-musical contexts and improve autistic children's social communication skills, identifying possible mediating factors contributing to the effectiveness of music therapy, potentially informing policy making and governance. Trial registration: This randomised control trial is registered with the NIH U.S. National Library of Medicine: https://clinicaltrials.gov/search?term=NCT06016621, clinicalTrials.gov Identifier: NCT0601662, Registration Date 19th August 2023. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
5. Music communicates social emotions: Evidence from 750 music excerpts.
- Author
-
Pring, Elliot X., Olsen, Kirk N., Mobbs, Anthony E. D., and Thompson, William Forde
- Subjects
- *
MUSIC & emotions , *EMOTION recognition , *SOCIAL status , *SOCIAL dominance , *EMOTIONS , *MUSICAL perception - Abstract
Humans perceive a range of basic emotional connotations from music, such as joy, sadness, and fear, which can be decoded from structural characteristics of music, such as rhythm, harmony, and timbre. However, despite theory and evidence that music has multiple social functions, little research has examined whether music conveys emotions specifically associated with social status and social connection. This investigation aimed to determine whether the social emotions of dominance and affiliation are perceived in music and whether structural features of music predict social emotions, just as they predict basic emotions. Participants (N = 1513) listened to subsets of 750 music excerpts and provided ratings of energy arousal, tension arousal, valence, dominance, and affiliation. Ratings were modelled based on ten structural features of music. Dominance and affiliation were readily perceived in music and predicted by structural features including rhythm, harmony, dynamics, and timbre. In turn, energy arousal, tension arousal and valence were also predicted by musical structure. We discuss the results in view of current models of music and emotion and propose research to illuminate the significance of social emotions in music. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
6. Effectiveness of auditory measures in the diagnosis of cochlear synaptopathy and noise-induced hidden hearing loss: a case–control study.
- Author
-
Mekki, Soha, Guindi, Sherif, Elakkad, Mona, Al-Aziz, Maii Kamal Abd, and El-Shafei, Reham Rafei
- Subjects
AUDITORY perception testing ,NOISE ,ACADEMIC medical centers ,EVOKED response audiometry ,PROBABILITY theory ,INTELLIGIBILITY of speech ,AUDIOMETRY ,MUSICAL perception ,ACOUSTIC nerve ,TINNITUS ,BRAIN stem ,CASE-control method ,HEARING levels ,CONFIDENCE intervals ,HIDDEN hearing loss ,ELECTROPHYSIOLOGY ,AUDITORY evoked response ,MUSICAL pitch - Abstract
Background: Cochlear synaptopathy is a disorder where auditory perceptual impairments, such as speech perception in noise and tinnitus, may not be accurately reflected by audiometric thresholds, even if the audiogram appears normal. It is proposed that the connections between hair cells and the auditory nerve are more susceptible to sound and aging damage than the cochlea's hair cells. Cochlear synaptopathy can be present in ears with normal audiograms and undamaged hair cells, leading to hidden hearing loss. This study aims to construct electrophysiological and behavioral auditory parameters associated with persons exposed to loudness and having normal audiograms and auditory complaints to identify hidden hearing loss. Results: A case–control study was done with forty participants with a documented history of exposure to loud sounds and various auditory complaints, compared to a control group of forty persons who had all been confirmed to have normal audiograms. The chosen behavioral core tests comprised the speech intelligibility in noise test (SPIN), gaps detection in noise (GIN test), and pitch pattern sequence test (PPS). The electrophysiological measures utilized in the study were the auditory brainstem response test (ABR) and electrocochleography (ECochG). The SPIN, PPS, and GIN test results demonstrated statistically significant disparities between the control and case groups. The amplitude ratio of wave I to wave V in ABR and the ratio of EcochG AP to SP demonstrated a statistically significant variance between the two groups. The SPIN test exhibited the highest AUC, signifying its superior diagnostic capability in identifying hidden hearing loss. Conclusion: The present study has shown that the SPIN, as a behavioral test, and the EcochG AP amplitude measure, as an electrophysiological test, provide the greatest auditory diagnostic capability for identifying cochlear synaptopathy. Wave I amplitude in the auditory brainstem response (ABR) and the SP/AP ratio in electrocochleography (EcochG) are promising non-behavioral measures of cochlear synaptopathy or hidden hearing loss. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
7. Editorial: New ideas in Performance Science.
- Author
-
Sevdalis, Vassilis, Hansen, Niels Chr., and Bégel, Valentin
- Subjects
ECOLOGICAL systems theory ,MOTOR learning ,WOMEN soccer players ,SCIENTIFIC method ,COGNITIVE psychology ,MUSICAL perception ,SINGING - Published
- 2024
- Full Text
- View/download PDF
8. Our Brains on Art: An Ancient Prescription for 21st Century Solutions.
- Author
-
Magsamen, Susan
- Subjects
- *
ANCIENT art , *CAREER development , *TWENTY-first century , *MUSICAL perception , *FRONTLINE personnel - Abstract
The article offers a perspective on the application of neuroaesthetics and neuroarts in practices like healthcare, rehabilitation, education, cultural organizations, community centers and public health. It offers update on research on the link between the arts and patient outcomes, the interconnection of neurobiological and biological systems, and music-based interventions for health conditions like pain and Alzheimer's disease. It also calls for evidence-based research to propel the field.
- Published
- 2024
- Full Text
- View/download PDF
9. Intelligent Dance Motion Evaluation: An Evaluation Method Based on Keyframe Acquisition According to Musical Beat Features.
- Author
-
Li, Hengzi and Huang, Xingli
- Subjects
- *
DANCE techniques , *NATURAL language processing , *JOINTS (Anatomy) , *DANCE , *MOTION analysis , *MUSICAL perception - Abstract
Motion perception is crucial in competitive sports like dance, basketball, and diving. However, evaluations in these sports heavily rely on professionals, posing two main challenges: subjective assessments are uncertain and can be influenced by experience, making it hard to guarantee timeliness and accuracy, and increasing labor costs with multi-expert voting. While video analysis methods have alleviated some pressure, challenges remain in extracting key points/frames from videos and constructing a suitable, quantifiable evaluation method that aligns with the static–dynamic nature of movements for accurate assessment. Therefore, this study proposes an innovative intelligent evaluation method aimed at enhancing the accuracy and processing speed of complex video analysis tasks. Firstly, by constructing a keyframe extraction method based on musical beat detection, coupled with prior knowledge, the beat detection is optimized through a perceptually weighted window to accurately extract keyframes that are highly correlated with dance movement changes. Secondly, OpenPose is employed to detect human joint points in the keyframes, quantifying human movements into a series of numerically expressed nodes and their relationships (i.e., pose descriptions). Combined with the positions of keyframes in the time sequence, a standard pose description sequence is formed, serving as the foundational data for subsequent quantitative evaluations. Lastly, an Action Sequence Evaluation method (ASCS) is established based on all action features within a single action frame to precisely assess the overall performance of individual actions. Furthermore, drawing inspiration from the Rouge-L evaluation method in natural language processing, a Similarity Measure Approach based on Contextual Relationships (SMACR) is constructed, focusing on evaluating the coherence of actions. By integrating ASCS and SMACR, a comprehensive evaluation of dancers is conducted from both the static and dynamic dimensions. During the method validation phase, the research team judiciously selected 12 representative samples from the popular dance game Just Dance, meticulously classifying them according to the complexity of dance moves and physical exertion levels. The experimental results demonstrate the outstanding performance of the constructed automated evaluation method. Specifically, this method not only achieves the precise assessments of dance movements at the individual keyframe level but also significantly enhances the evaluation of action coherence and completeness through the innovative SMACR. Across all 12 test samples, the method accurately selects 2 to 5 keyframes per second from the videos, reducing the computational load to 4.1–10.3% compared to traditional full-frame matching methods, while the overall evaluation accuracy only slightly decreases by 3%, fully demonstrating the method's combination of efficiency and precision. Through precise musical beat alignment, efficient keyframe extraction, and the introduction of intelligent dance motion analysis technology, this study significantly improves upon the subjectivity and inefficiency of traditional manual evaluations, enhancing the scientificity and accuracy of assessments. It provides robust tool support for fields such as dance education and competition evaluations, showcasing broad application prospects. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
10. Breaking (musical) boundaries by investigating brain dynamics of event segmentation during real-life music-listening.
- Author
-
Burunat, Iballa, Levitin, Daniel J., and Toiviainen, Petri
- Subjects
- *
INDEPENDENT component analysis , *MUSICAL perception , *FUNCTIONAL magnetic resonance imaging , *MUSICALS , *EXPERTISE - Abstract
The perception of musical phrase boundaries is a critical aspect of human musical experience: It allows us to organize, understand, derive pleasure from, and remember music. Identifying boundaries is a prerequisite for segmenting music into meaningful chunks, facilitating efficient processing and storage while providing an enjoyable, fulfilling listening experience through the anticipation of upcoming musical events. Expanding on Sridharan et al.'s [Neuron 55, 521-532 (2007)] work on coarse musical boundaries between symphonic movements, we examined finer-grained boundaries. We measured the fMRI responses of 18 musicians and 18 nonmusicians during music listening. Using general linear model, independent component analysis, and Granger causality, we observed heightened auditory integration in anticipation to musical boundaries, and an extensive decrease within the fronto-temporal-parietal network during and immediately following boundaries. Notably, responses were modulated by musicianship. Findings uncover the intricate interplay between musical structure, expertise, and cognitive processing, advancing our knowledge of how the brain makes sense of music. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
11. Neural Coincidence Detection Strategies during Perception of Multi-Pitch Musical Tones.
- Author
-
Bader, Rolf
- Subjects
COINCIDENCE circuits ,BASILAR membrane ,MUSICAL pitch ,MUSICAL instruments ,GUITAR playing ,ABSOLUTE pitch ,MUSICAL perception - Abstract
Multi-pitch perception is investigated in a listening test using 30 recordings of musical sounds with two tones played simultaneously, except for two gong sounds with inharmonic overtone spectra, judging roughness and separateness as the ability to tell the two tones in each recording apart. Of the sounds, 13 were from a Western guitar playing all 13 intervals in one octave, the other sounds were mainly from non-Western instruments, comparing familiar with unfamiliar instrument sounds for Western listeners. Additionally the sounds were processed in a cochlea model, transferring the mechanical basilar membrane motion into neural spikes followed by post-processing simulating different degrees of coincidence detection. Separateness perception showed a clear distinction between familiar and unfamiliar sounds, while roughness perception did not. By correlating perception with simulation different perception strategies were found. Familiar sounds correlated strongly positively with high degrees of coincidence detection, where only 3–5 periodicities were left, while unfamiliar sounds correlated with low coincidence levels. This corresponds to an attention to pitch and timbre, respectively. Additionally, separateness perception showed an opposite correlation between perception and neural correlates between familiar and unfamiliar sounds. This correlates with the perceptional finding of the distinction between familiar and unfamiliar sounds with separateness. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
12. Instrumental music training relates to intensity assessment but not emotional prosody recognition in Mandarin.
- Author
-
Liu, Mengting, Teng, Xiangbin, and Jiang, Jun
- Subjects
- *
EMOTION recognition , *MUSIC & emotions , *TONE (Phonetics) , *INSTRUMENTAL music , *EMOTIONS , *MUSICAL perception - Abstract
Building on research demonstrating the benefits of music training for emotional prosody recognition in nontonal languages, this study delves into its unexplored influence on tonal languages. In tonal languages, the acoustic similarity between lexical tones and music, along with the dual role of pitch in conveying lexical and affective meanings, create a unique interplay. We evaluated 72 participants, half of whom had extensive instrumental music training, with the other half serving as demographically matched controls. All participants completed an online test consisting of 210 Chinese pseudosentences, each designed to express one of five emotions: happiness, sadness, fear, anger, or neutrality. Our robust statistical analyses, which included effect size estimates and Bayesian factors, revealed that music and nonmusic groups exhibit similar abilities in identifying the emotional prosody of various emotions. However, the music group attributed higher intensity ratings to emotional prosodies of happiness, fear, and anger compared to the nonmusic group. These findings suggest that while instrumental music training is not related to emotional prosody recognition, it does appear to be related to perceived emotional intensity. This dissociation between emotion recognition and intensity evaluation adds a new piece to the puzzle of the complex relationship between music training and emotion perception in tonal languages. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
13. Anhedonia severity mediates the relationship between attentional networks recruitment and emotional blunting during music listening.
- Author
-
Cahart, Marie-Stephanie, Giampietro, Vincent, Naysmith, Laura, Muraz, Mathilde, Zelaya, Fernando, Williams, Steven C. R., and O'Daly, Owen
- Subjects
- *
ANHEDONIA , *MUSICAL perception , *MENTAL depression , *LARGE-scale brain networks , *TIME-varying networks - Abstract
Emotion studies have commonly reported impaired emotional processing in individuals with heightened anhedonic depressive symptoms, as typically measured by collecting single subjective ratings for a given emotional cue. However, the interindividual variation in moment-to-moment emotional reactivity, and associated time-varying brain networks recruitment as emotions are unfolding, remains unclear. In this study, we filled this gap by using the unique temporal characteristics of music to investigate behavioural and brain network dynamics as a function of anhedonic depressive symptoms severity. Thirty-one neurotypical participants aged 18–30 years completed anhedonic depression questionnaires and then continuously rated happy, neutral and sad pieces of music whilst undergoing MRI scanning. Using a unique combination of dynamic approaches to behavioural (i.e., emotion dynamics) and fMRI (i.e., leading eigenvector dynamics analysis; LEiDA) data analysis, we found that participants higher in anhedonic depressive symptoms exhibited increased recruitment of attentional networks and blunted emotional response to both happy and sad musical excerpts. Anhedonic depression mediated the relationship between attentional networks recruitment and emotional blunting, and the elevated recruitment of attentional networks during emotional pieces of music carried over into subsequent neutral music. Future studies are needed to investigate whether these findings could be generalised to a clinical population (i.e., major depressive disorder). [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
14. Effects of Monaural Temporal Electrode Asynchrony and Channel Interactions in Bilateral and Unilateral Cochlear-Implant Stimulation.
- Author
-
Lindenbeck, Martin J., Majdak, Piotr, and Laback, Bernhard
- Subjects
COCHLEAR implants ,HEARING aid fitting ,TURNAROUND time ,POLYMERS ,PROMPTS (Psychology) ,RESEARCH funding ,TREATMENT effectiveness ,MUSICAL perception ,DESCRIPTIVE statistics ,ELECTRIC stimulation ,LOUDNESS ,ONE-way analysis of variance ,ACOUSTIC stimulation ,PULSE (Heart beat) ,SPACE perception ,AUDITORY perception ,CONFIDENCE intervals ,ELECTRODES ,AUDITORY evoked response ,MUSICAL pitch - Abstract
Timing cues such as interaural time differences (ITDs) and temporal pitch are pivotal for sound localization and source segregation, but their perception is degraded in cochlear-implant (CI) listeners as compared to normal-hearing listeners. In multi-electrode stimulation, intra-aural channel interactions between electrodes are assumed to be an important factor limiting access to those cues. The monaural asynchrony of stimulation timing across electrodes is assumed to mediate the amount of these interactions. This study investigated the effect of the monaural temporal electrode asynchrony (mTEA) between two electrodes, applied similarly in both ears, on ITD-based left/right discrimination sensitivity in five CI listeners, using pulse trains with 100 pulses per second and per electrode. Forward-masked spatial tuning curves were measured at both ears to find electrode separations evoking controlled degrees of across-electrode masking. For electrode separations smaller than 3 mm, results showed an effect of mTEA. Patterns were u/v-shaped, consistent with an explanation in terms of the effective pulse rate that appears to be subject to the well-known rate limitation in electric hearing. For separations larger than 7 mm, no mTEA effects were observed. A comparison to monaural rate-pitch discrimination in a separate set of listeners and in a matched setup showed no systematic differences between percepts. Overall, an important role of the mTEA in both binaural and monaural dual-electrode stimulation is consistent with a monaural pulse-rate limitation whose effect is mediated by channel interactions. Future CI stimulation strategies aiming at improved timing-cue encoding should minimize the stimulation delay between nearby electrodes that need to be stimulated successively. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
15. Editorial: The musical brain, volume II.
- Author
-
Fritz, Jonathan, Belfi, Amy, Grahn, Jessica, Iversen, John, Peretz, Isabelle, and Zatorre, Robert
- Subjects
TEMPORAL lobe ,PREFRONTAL cortex ,ABSOLUTE pitch ,MUSICOLOGY ,REWARD (Psychology) ,MUSICAL perception ,MUSICAL pitch - Abstract
This summary is about an editorial titled "The musical brain, volume II" published in Frontiers in Neuroscience. The editorial discusses the complex interactions between music and the human brain, exploring various neural circuits and networks involved in sensory perception, attention, learning, memory, emotion, aesthetics, and motor skills related to music. It highlights the growing interest in studying the representation of music in the brain and presents a research topic that covers a range of neuroscience and psychoacoustics topics related to music perception and sound. The editorial also mentions the exploration of the healing potential of music and includes brief introductions to seven contributions in the research topic. Additionally, the summary briefly describes three articles related to the perception and processing of music, which contribute to our understanding of various aspects of music perception and processing. [Extracted from the article]
- Published
- 2024
- Full Text
- View/download PDF
16. Impact of interference on vocal and instrument recognition.
- Author
-
Bürgel, Michel and Siedenburg, Kai
- Subjects
- *
AUDITORY perception , *POPULAR music , *RECOGNITION (Psychology) , *SINGING , *SOUNDS , *MUSICAL perception - Abstract
Voices arguably occupy a superior role in auditory processing. Specifically, studies have reported that singing voices are processed faster and more accurately and possess greater salience in musical scenes compared to instrumental sounds. However, the underlying acoustic features of this superiority and the generality of these effects remain unclear. This study investigates the impact of frequency micro-modulations (FMM) and the influence of interfering sounds on sound recognition. Thirty young participants, half with musical training, engage in three sound recognition experiments featuring short vocal and instrumental sounds in a go/no-go task. Accuracy and reaction times are measured for sounds from recorded samples and excerpts of popular music. Each sound is presented in separate versions with and without FMM, in isolation or accompanied by a piano. Recognition varies across sound categories, but no general vocal superiority emerges and no effects of FMM. When presented together with interfering sounds, all sounds exhibit degradation in recognition. However, whereas /a/ sounds stand out by showing a distinct robustness to interference (i.e., less degradation of recognition), /u/ sounds lack this robustness. Acoustical analysis implies that recognition differences can be explained by spectral similarities. Together, these results challenge the notion of general vocal superiority in auditory perception. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
17. Improvement of Motor Task Performance: Effects of Verbal Encouragement and Music—Key Results from a Randomized Crossover Study with Electromyographic Data.
- Author
-
Cotellessa, Filippo, Bragazzi, Nicola Luigi, Trompetto, Carlo, Marinelli, Lucio, Mori, Laura, Faelli, Emanuela, Schenone, Cristina, Ceylan, Halil İbrahim, Biz, Carlo, Ruggieri, Pietro, and Puce, Luca
- Subjects
MUSCLE fatigue ,FATIGUE (Physiology) ,TASK performance ,ATHLETIC ability ,ENCOURAGEMENT ,MOTOR unit ,MUSICAL perception ,BICEPS brachii - Abstract
External motivational stimuli have been shown to improve athletic performance. However, the neurophysiological mechanisms underlying this improvement remain poorly understood. This randomized crossover study investigated the effects of music and verbal encouragement on measures of muscle excitation and myoelectric manifestations of fatigue in the biceps brachii and brachioradialis muscles during an endurance task. Fifteen untrained (mean age 29.57 ± 2.77 years) and 13 trained individuals (mean age 32.92 ± 2.90 years) were included. The endurance task, performed to exhaustion, consisted of keeping the dominant arm flexed to 90 degrees while holding a dumbbell loaded to 80% of 1RM with a supine grip in three randomized conditions: standard, with self-selected music, and with verbal encouragement. The untrained subjects showed an increase in task duration of 15.26% (p < 0.003) with music and 15.85% (p < 0.002) with verbal encouragement compared to the condition without external stimuli. There were no significant differences in the myoelectric manifestations of fatigue between the different conditions. Regarding the muscle excitation metrics, although the mean amplitude, peak value, and area under the curve remained unchanged across conditions, a significant reduction in the trend coefficient, indicating motor unit recruitment over time, was observed with both music (biceps brachii: −10.39%, p < 0.001; brachioradialis: −9.40%, p < 0.001) and verbal encouragement (biceps brachii: −7.61%, p < 0.001; brachioradialis: −6.51%, p < 0.001) compared to the standard condition. For the trained participants, no significant differences were observed between conditions in terms of task duration and outcome measures related to muscle excitation and myoelectric manifestations of fatigue, suggesting the possible presence of a ceiling effect on motivation. These results highlight the important role of external motivational stimuli, such as music and verbal encouragement, in improving task performance in untrained subjects, probably through more effective and efficient recruitment of motor units. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
18. Age and familiarity effects on musical memory.
- Author
-
Sauvé, Sarah A., Satkunarajah, Praveena, Cooke, Stephen, Demirkaplan, Özgen, Follett, Alicia, and Zendel, Benjamin Rich
- Subjects
- *
MUSICAL perception , *RECOGNITION (Psychology) , *COGNITIVE testing , *OLDER people , *EPISODIC memory , *AGE factors in memory - Abstract
Background: A common complaint in older adults is trouble with their memory, especially for new information. Current knowledge about normal aging and changes in memory identify a divide between memory tasks that are unaffected by aging and those that are. Among the unaffected are recognition tasks. These memory tasks rely on accessing well-known information, often include environmental support, and tend to be automatic. Negative age effects on memory are often observed at both encoding and during recall. Older adults often have difficulty with recall tasks, particularly those that require effortful self-initiated processing, episodic memory, and retention of information about contextual cues. Research in memory for music in healthy aging suggests a skill-invariance hypothesis: that age effects dominate when general-purpose cognitive mechanisms are needed to perform the musical task at hand, while experience effects dominate when music-specific knowledge is needed to perform the task [1]. Aims: The goals of this pair of studies were to investigate the effects of age and familiarity on musical memory in the context of real pieces of music, and to compare a live concert experimental setting with a lab-based experimental setting. Method: Participants' task was to click a button (or press the spacebar) when they heard the target theme in three pieces of music. One was Mozart's Eine Kleine Nachtmusik and the others were original pieces commissioned for this study, one tonal and one atonal. Participants heard the relevant theme three times before listening to a piece of music. The music was performed by the Newfoundland Symphony Orchestra; participants either attended the concert, or watched a recording of the concert in the lab. Participants also completed two short cognitive tests and filled out a questionnaire collecting demographic information and a hearing abilities self-assessment. Results: We find a significant effect of familiarity and setting but not of age or musical training on recognition performance as measured by d'. More specifically, performance is best for the familiar, tonal piece, moderate for the unfamiliar tonal piece and worst for the unfamiliar atonal piece. Performance was better in the live setting than the lab setting. Conclusions: The absence of an age effect provides encouraging evidence that music's diverse cues may encourage cognitive scaffolding, in turn improving encoding and subsequent recognition. Better performance in an ecological versus lab setting supports the expansion of ecological studies in the field. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
19. Psychophysical correlates of musicality in musically untrained children: evidence for musical sleepers in children.
- Author
-
Sampath, Sridhar and Neelamegarajan, Devi
- Subjects
MUSIC ,PROMPTS (Psychology) ,DATA analysis ,SEX distribution ,LEARNING ,MUSICAL perception ,DESCRIPTIVE statistics ,MANN Whitney U Test ,AGE distribution ,STATISTICS ,MEMORY ,INFERENTIAL statistics ,AUDITORY perception ,PSYCHOACOUSTICS ,PSYCHOLOGICAL tests ,HUMAN voice ,MUSICAL pitch ,SENSITIVITY & specificity (Statistics) ,CHILDREN - Abstract
Background: Music learning induces significant neural changes, enhancing auditory, verbal, and visuospatial skills, IQ, and speech perception. Research studies reveal structural and functional brain plasticity due to music training in adults and children. While musical abilities are linked to formal training, the existence of "musical sleepers" with heightened speech perception without formal training is noteworthy in adults. This study addresses the gap in understanding such phenomena in children, exploring psychophysical abilities in musically adept children, and aiming to impact rehabilitation models. Materials and method: A pre-experimental study involved 164 typically developing children (mean age: 9.93) without musical training. Musical abilities were evaluated using the abbreviated version of Montreal Battery for Evaluation of Musical Abilities (MBEMA) test in DMDX software, covering melody, rhythm, and memory subtests. Psychophysical tests in MATLAB assessed temporal, frequency, intensity, timbre, and binaural resolution. Results: Using a median split based on MBEMA test scores (median: 42), 84 children exhibited poor musical abilities, while 80 showed good ones. Descriptive statistics for MBEMA scores and psychophysical tests were conducted. As data did not follow normal distribution, non-parametric inferential statistics were employed. Mann–Whitney U tests revealed significant differences favouring good musical abilities in all assessments: gap deduction (p = 0.01), pitch discrimination at 500 Hz and 4 kHz (p = 0.00), intensity discrimination at 500 Hz (p = 0.00) and 4 kHz (p = 0.01), profile analysis (p = 0.01), interaural level difference (p = 0.023), and interaural time difference (p = 0.038). Spearman correlation showed highest correlation with pitch discrimination at 500 Hz (r = − 0.538), 4 kHz (− 0.416), intensity discrimination at 4 kHz (r = − 0.367), and 500 Hz (r = − 0.311), profile analysis (r = − 0.313), interaural level difference (r = − 0.276), and gap deduction (r = − 0.235). All were significant (p < 0.01), except for the interaural time difference. Conclusion: Children excelling in music surpassed those with weaker abilities in psychophysical tasks. This echoes past research, underscoring auditory discrimination's influence on musical skills in untrained children. These results potentially support the concept of musical sleepers in children. Key predictors include pitch discrimination, while interaural time difference exhibited minimal correlation. Utilising such assessments may predict musical training outcomes for children with auditory disorders, but additional robust statistical investigation is necessary. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
20. Newborn's neural representation of instrumental and vocal music as revealed by fMRI: A dynamic effective brain connectivity study.
- Author
-
Loukas, Serafeim, Filippa, Manuela, de Almeida, Joana Sa, Boehringer, Andrew S., Tolsa, Cristina Borradori, Barcos‐Munoz, Francisca, Grandjean, Didier M., van de Ville, Dimitri, and Hüppi, Petra S.
- Subjects
- *
VOCAL music , *INSTRUMENTAL music , *MUSICAL perception , *FUNCTIONAL magnetic resonance imaging , *PSYCHOPHYSIOLOGY - Abstract
Music is ubiquitous, both in its instrumental and vocal forms. While speech perception at birth has been at the core of an extensive corpus of research, the origins of the ability to discriminate instrumental or vocal melodies is still not well investigated. In previous studies comparing vocal and musical perception, the vocal stimuli were mainly related to speaking, including language, and not to the non‐language singing voice. In the present study, to better compare a melodic instrumental line with the voice, we used singing as a comparison stimulus, to reduce the dissimilarities between the two stimuli as much as possible, separating language perception from vocal musical perception. In the present study, 45 newborns were scanned, 10 full‐term born infants and 35 preterm infants at term‐equivalent age (mean gestational age at test = 40.17 weeks, SD = 0.44) using functional magnetic resonance imaging while listening to five melodies played by a musical instrument (flute) or sung by a female voice. To examine the dynamic task‐based effective connectivity, we employed a psychophysiological interaction of co‐activation patterns (PPI‐CAPs) analysis, using the auditory cortices as seed region, to investigate moment‐to‐moment changes in task‐driven modulation of cortical activity during an fMRI task. Our findings reveal condition‐specific, dynamically occurring patterns of co‐activation (PPI‐CAPs). During the vocal condition, the auditory cortex co‐activates with the sensorimotor and salience networks, while during the instrumental condition, it co‐activates with the visual cortex and the superior frontal cortex. Our results show that the vocal stimulus elicits sensorimotor aspects of the auditory perception and is processed as a more salient stimulus while the instrumental condition activated higher‐order cognitive and visuo‐spatial networks. Common neural signatures for both auditory stimuli were found in the precuneus and posterior cingulate gyrus. Finally, this study adds knowledge on the dynamic brain connectivity underlying the newborns capability of early and specialized auditory processing, highlighting the relevance of dynamic approaches to study brain function in newborn populations. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
21. Playing music together: Exploring the impact of a classical music ensemble on adolescent's life skills self-perception.
- Author
-
Bussu, Anna and Mangiarulo, Marta
- Subjects
- *
LIFE skills , *ENSEMBLE music , *CONVENIENCE sampling (Statistics) , *COGNITIVE styles , *SOCIAL skills , *MUSICAL perception - Abstract
This paper explored the effectiveness of ensemble performance on the development of adolescent's life skills. An explorative qualitative study investigated young musicians' self-perception about the benefits and challenges of learning and playing music together. A convenience sampling technique was adopted for interviewing 15 adolescents (12–18 years old) who participated in a long-term music education programme led by a charity in the North-West of England. The data were analysed using NVivo, employing a thematic analysis approach. Two main themes emerged from the analyses: (1) the main benefits of playing and learning in an ensemble: the development of music and life skills; (2) the challenges experienced by the musicians learning in the ensemble. The findings suggest that participants were conscious of the positive effects of playing in an ensemble on their lives. This extended beyond merely learning a musical instrument, i.e. acquiring music skills. In particular, young musicians recognised they had developed greater self-confidence and cognitive skills such as critical thinking and self-awareness. Primarily, they developed effective communication and interpersonal skills. At the same time, these young musicians recognised they had to face challenges related to the process of learning music in an ensemble, such as managing emotions of frustration and adapting to different music learning styles and techniques. Finally, suggestions are made for the implementation and evaluation of future projects to explore the impact and effectiveness of classical music programmes, with a particular emphasis on ensemble-based initiatives and their influence on life skills. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
22. Music-Making and Depression and Anxiety Before and During the COVID-19 Pandemic--Results From the NAKO Cohort Study in Germany.
- Author
-
Becher, Heiko, Krist, Lilian, Menzel, Juliane, Fernholz, Isabel, Keil, Thomas, Kreutz, Gunter, Schmidt, Alexander, Streit, Fabian, Willich, Stefan N., and Weikert, Cornelia
- Subjects
COVID-19 pandemic ,GENERALIZED anxiety disorder ,ANXIETY ,COHORT analysis ,MUSICAL perception ,MUSIC scores - Abstract
Objectives: To investigate the association of musical activity with mental health during the COVID-19 pandemic. Methods: A total of 3,666 participants reported their musical activity before and mental health indicators before and during the pandemic. Depression was assessed with the Patient Health Questionnaire, anxiety with the Generalized Anxiety Disorder scale. The association between mental health scores and musical activities was investigated using linear regression. Results: Within the last 12 months, 22.1% of the participants reported musical activity (15.1% singing, 14.5% playing an instrument). Individuals with frequent singing as their main musical activity had higher scores before the pandemic than non-musicians and the worsening during the pandemic was more pronounced compared to non-musicians. Instrumentalists tended to have slightly lower scores than non-musicians indicating a possible beneficial effect of playing an instrument on mental health. Conclusion: The pandemic led to a worsening of mental health, with singers being particularly affected. Singers showed poorer mental health before the pandemic. The tendency for instrumentalists to report lower depression scores compared to non-musicians may support the hypothesis that music-making has a beneficial effect on health. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
23. Investigating the Effects of Pitch Discrimination-based Rehabilitation on Indices and Results of Diagnostic Tests of Children Suspected of Auditory Processing Disorder.
- Author
-
Lotfi, Yones, Parhizgar, Mohammadreza, Doosti, Afsaneh, and Bakhshi, Enayatollah
- Subjects
EAR physiology ,WORD deafness ,DICHOTIC listening tests ,CAUSAL models ,CLINICAL trials ,MUSICAL perception ,TREATMENT effectiveness ,DESCRIPTIVE statistics ,MANN Whitney U Test ,CHI-squared test ,ROUTINE diagnostic tests ,PRE-tests & post-tests ,MEMORY ,COMPARATIVE studies ,AUDITORY perception ,HEARING levels ,DATA analysis software ,MUSICAL pitch ,CHILDREN - Abstract
Objective Auditory processing disorder (APD) tests, based on the deviation of results from standard benchmarks, can distinguish children suspected of having APD. Some of these tests directly relate to the ability to discriminate sound pitch, while others may be indirectly affected. Accordingly, this study investigates the impact of pitch discrimination-based rehabilitation on diagnostic indices of APD tests. Materials & Methods In this study, we selected 19 children suspected of APD who were identified based on tests of pitch pattern, dichotic digits, and monaural selective auditory attention as the intervention group. These children received pitch discrimination-based training, for about three months, two to three sessions a week, each session up to 1 h. After completing the rehabilitation phases, diagnostic tests were administered again. We also selected 26 children with similar diagnostic criteria for APD as the control group. No intervention was applied to this group, and after a comparable period to the intervention group, diagnostic tests were re-administered. The results before and after the interventions were compared within the intervention group and with the 26 children in the control group. Results The rehabilitation showed significant improvements in the pitch pattern and monaural selective auditory attention tests. In the monaural selective auditory attention test, significant improvements were observed in both ears (P=0.001). In the pitch pattern test, effective improvements were also observed for both ears (P=0.001). The effects were such that nearly 37% of children suspected of APD, based on the diagnostic criteria used in the study, no longer met the criteria for this disorder. Hence, if the same tests are re-administered to them, these children will be diagnosed as having no auditory processing disorder. Conclusion Discrimination-based rehabilitation impacts the results of APD tests. Accordingly, some children who are classified as suspected auditory processing disorder with such tests, are removed from this subgroup after the intervention. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
24. Emotion brain network topology in healthy subjects following passive listening to different auditory stimuli.
- Author
-
Mohd Rashid, Muhammad Hakimi, Ab Rani, Nur Syairah, Kannan, Mohammed, Abdullah, Mohd Waqiyuddin, Ab Ghani, Muhammad Amiri, Kamel, Nidal, and Mustapha, Muzaimi
- Subjects
MUSIC therapy ,AUDITORY perception ,LARGE-scale brain networks ,FUNCTIONAL connectivity ,MUSIC & emotions ,MUSICAL perception - Abstract
A large body of research establishes the efficacy of musical intervention in many aspects of physical, cognitive, communication, social, and emotional rehabilitation. However, the underlying neural mechanisms for musical therapy remain elusive. This study aimed to investigate the potential neural correlates of musical therapy, focusing on the changes in the topology of emotion brain network. To this end, a Bayesian statistical approach and a cross-over experimental design were employed together with two resting-state magnetoencephalography (MEG) as controls. MEG recordings of 30 healthy subjects were acquired while listening to five auditory stimuli in random order. Two resting-state MEG recordings of each subject were obtained, one prior to the first stimulus (pre) and one after the final stimulus (post). Time series at the level of brain regions were estimated using depth-weighted minimum norm estimation (wMNE) source reconstruction method and the functional connectivity between these regions were computed. The resultant connectivity matrices were used to derive two topological network measures: transitivity and global efficiency which are important in gauging the functional segregation and integration of brain network respectively. The differences in these measures between pre- and post-stimuli resting MEG were set as the equivalence regions. We found that the network measures under all auditory stimuli were equivalent to the resting state network measures in all frequency bands, indicating that the topology of the functional brain network associated with emotional regulation in healthy subjects remains unchanged following these auditory stimuli. This suggests that changes in the emotion network topology may not be the underlying neural mechanism of musical therapy. Nonetheless, further studies are required to explore the neural mechanisms of musical interventions especially in the populations with neuropsychiatric disorders. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
25. Neural correlates of musical timbre: an ALE meta-analysis of neuroimaging data.
- Author
-
Bellmann, Oliver Tab and Asano, Rie
- Subjects
TEMPORAL lobe ,MUSICAL perception ,AUDITORY pathways ,AUDITORY perception ,PARIETAL lobe ,MUSICAL pitch ,MUSICALS - Abstract
Timbre is a central aspect of music that allows listeners to identify musical sounds and conveys musical emotion, but also allows for the recognition of actions and is an important structuring property of music. The former functions are known to be implemented in a ventral auditory stream in processing musical timbre. While the latter functions are commonly attributed to areas in a dorsal auditory processing stream in other musical domains, its involvement in musical timbre processing is so far unknown. To investigate if musical timbre processing involves both dorsal and ventral auditory pathways, we carried out an activation likelihood estimation (ALE) meta-analysis of 18 experiments from 17 published neuroimaging studies on musical timbre perception. We identified consistent activations in Brodmann areas (BA) 41, 42, and 22 in the bilateral transverse temporal gyri, the posterior superior temporal gyri and planum temporale, in BA 40 of the bilateral inferior parietal lobe, in BA 13 in the bilateral posterior Insula, and in BA 13 and 22 in the right anterior insula and superior temporal gyrus. The vast majority of the identified regions are associated with the dorsal and ventral auditory processing streams. We therefore propose to frame the processing of musical timbre in a dual-stream model. Moreover, the regions activated in processing timbre show similarities to the brain regions involved in processing several other fundamental aspects of music, indicating possible shared neural bases of musical timbre and other musical domains. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
26. Pre-Service Primary General Teacher-Students’ Attitudes Towards Written Language Activities Based on Musical Stimuli.
- Author
-
Nikolaou, Eirini and Galani, Alexandra
- Subjects
WRITTEN communication ,MUSICAL perception ,SHORT story writing ,LANGUAGE acquisition ,MUSIC in education ,LANGUAGE teachers - Abstract
The paper investigates pre-service primary general teacher-students’ perceptions of how music can act as a stimulus for writing, through short story group writing activities. More specifically, we look at their attitudes regarding i) team collaboration, ii) the enhancement of their creativity, iii) classroom atmosphere, iv) the suitability of the activities for their implementation in primary school classes in the future and v) the advantages the use of music can have for language development. In our study, pre-service primary general teacher-students’ views were shaped by the experiences they gained from their participation in group activities which were implemented as part of an undergraduate elective course, entitled “Music Education”. The participants recorded their ideas on worksheets. Data were collected through observation, diaries and questionnaires with open and closed-ended questions. The results revealed that the pre-service primary general teacher-students had a positive attitude towards story inventing and story writing activities based on musical stimuli. Such activities boosted their creativity and gave them the opportunity to develop their teamwork skills as well as to participate in a pleasant and innovative classroom atmosphere. Finally, they were positive about the suitability of the activities for their future students and the advantages the use of music can have in language lessons for teachers, students and the educational process. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
27. Automatic Composition System Based on Transformer-XL.
- Author
-
Li, Ze, Huang, Qing, Yang, Xinhao, Chen, Qing, and Zhang, Li
- Subjects
POPULAR music ,MUSIC scores ,PIANO music ,PIANO ,MUSICAL perception - Abstract
An automatic composition system that includes music generation and music assessment is designed in this paper. In terms of music generation, we modify the Transformer-XL model for generating music. The Mask mechanism based on Transformer-XL is improved to make the attention of model tend to pay on the bidirectional information, so that the generated popular piano music forms a coherent whole. In terms of music assessment, we combine objective and subjective assessment to judge the generated music in a comprehensive way. Meanwhile, we put forward a new objective assessment method, namely the piano roll classification scoring network. It converts music into pictures and uses classification models in the CV, enabling the network itself to classify and score the generated music. The assessment results from subjective and objective experiments show that by improving the Mask mechanism of Transformer-XL, the model is trained to be better and the generated music could achieve the effect of imitating the real music. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
28. Linear Tube Audio Aero D/A PROCESSOR.
- Author
-
REICHERT, HERB and Atkinson, John
- Subjects
TUBES ,BONE conduction ,PHONOGRAPH records ,INTERMODULATION distortion ,BASS guitar ,VACUUM tubes ,HEADPHONES ,MUSICAL perception - Abstract
The Linear Tube Audio Aero D/A Processor is a new digital-to-analog converter that uses the Analog Devices AD1865 R2R DAC chip. It is designed to provide a unique and deliberate listening experience, focusing on musicality and engagement. The Aero DAC has a balanced output stage, no digital filters or oversampling, and a power supply with over 300,000μF of storage capacitance. It is praised for its ability to convey rhythm, momentum, and small-signal complexities. The Aero DAC offers a distinct sound that may appeal to those who prefer a boogie, glow, and touch in their music. [Extracted from the article]
- Published
- 2024
29. Spontaneous rates exhibit high intra-individual stability across movements involving different biomechanical systems and cognitive demands.
- Author
-
Engler, Ben H., Zamm, Anna, and Møller, Cecilie
- Subjects
- *
MUSICAL perception , *CIRCADIAN rhythms , *EVERYDAY life , *MELODY - Abstract
Spontaneous rhythmic movements are part of everyday life, e.g., in walking, clapping or music making. Humans perform such spontaneous motor actions at different rates that reflect specific biomechanical constraints of the effector system in use. However, there is some evidence for intra-individual consistency of specific spontaneous rates arguably resulting from common underlying processes. Additionally, individual and contextual factors such as musicianship and circadian rhythms have been suggested to influence spontaneous rates. This study investigated the relative contributions of these factors and provides a comprehensive picture of rates among different spontaneous motor behaviors, i.e., melody production, walking, clapping, tapping with and without sound production, the latter measured online before and in the lab. Participants (n = 60) exhibited high intra-individual stability across tasks. Task-related influences included faster tempi for spontaneous production rates of music and wider ranges of spontaneous motor tempi (SMT) and clapping rates compared to walking and music making rates. Moreover, musicians exhibited slower spontaneous rates across tasks, yet we found no influence of time of day on SMT as measured online in pre-lab sessions. Tapping behavior was similar in pre-lab and in-lab sessions, validating the use of online SMT assessments. Together, the prominent role of individual factors and high stability across domains support the idea that different spontaneous motor behaviors are influenced by common underlying processes. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
30. A SONIC CHARACTERIZATION OF THE CHARACTERS IN THE MUSICAL ADIO CHIUSTENGE! BY DUMITRU LUPU.
- Author
-
CEBAN, Inga
- Subjects
MUSICALS ,MUSICOLOGY ,COMPOSERS ,ROMANIANS ,MUSICAL perception - Abstract
Copyright of Studii de Ştiintă şi Cultură is the property of Studii de Stiinta si Cultura and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2024
31. Frequency and intensity discrimination in children with cochlear implants.
- Author
-
Negm, Nahed Mohamed, Elmahalawy, Trandil Hassan, Kolkaila, Enaas Ahmad, and Kotait, Mona Ahmed
- Subjects
COCHLEAR implants ,RECEIVER operating characteristic curves ,STATISTICAL hypothesis testing ,MUSICAL perception ,DESCRIPTIVE statistics ,MANN Whitney U Test ,CASE-control method ,SPEECH perception ,HEARING disorders ,DATA analysis software ,MUSICAL pitch ,SENSITIVITY & specificity (Statistics) - Abstract
Background: Frequency discrimination underlies more complicated auditory activities like speech comprehension and interpretation. However, intensity differences indicate how far apart noises are. This study aimed to evaluate and compare results of frequency modulation and difference limen for intensity in children with cochlear Implants (CI) as well as normal hearing children. Results: This case–control work was performed on 40 children, aged from 5–18 years, divided into two equal groups: a study group with unilateral CI and a control group with normal peripheral hearing. All patients were subjected to otological examination, audiological evaluation, frequency modulation difference limen (FMDL) and difference limen for intensity (DLI) tests. Patients with CI, as compared to normal hearing (NH) subjects, required significantly higher frequencies to discriminate FMDL and DLI respectively (P value = 0.001). At 2000 and 4000 Hz: FMDL had a significant diagnostic power for patients with CI (AUC = 0.980, 0.998 respectively, P < 0.001), at cut off 1.5, with 100% sensitivity and 100% specificity. While, at 4000 Hz: DLI had a significant diagnostic power for patients with CI (AUC = 0.999, P < 0.001), at cut off 1.5, with 100% sensitivity and 100% specificity. Conclusion: A statistically substantial variation was observed among CI and NH children in FMDL and DLI at all frequencies tested. Patients with CI required significantly higher frequencies to discriminate as compared to NH subjects. Frequencies at 2000 Hz and 4000 Hz possess the best specificity and sensitivity of FMDL. While frequency 4000 Hz possess the best specificity and sensitivity of DLI. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
32. Music and Emotions in Non-Human Animals from Biological and Comparative Perspectives.
- Author
-
Zapata-Cardona, Juliana, Ceballos, Maria Camila, and Rodríguez, Berardo de Jesús
- Subjects
- *
MUSIC & emotions , *EMOTIONS in animals , *ANIMAL welfare , *ENVIRONMENTAL enrichment , *CAPTIVE wild animals , *DOMESTIC animals , *MUSICAL perception - Abstract
Simple Summary: For humans, music is a powerful tool of emotional communication, conveying affective states and modulating physiological states in ways that can influence well-being. Understanding that emotionality is not an exclusively human trait, as it is also recognized in non-human species, it is natural to assume that the intrinsic power of music to modulate the psychophysiological state may be trans-specific. In this way, music can be a powerful tool for enriching the environment and improving the welfare of captive animals, especially farm animals. As there is very limited information on non-human animals, the aim is to review what is known from a human comparative perspective, arguments that support its use, and the potential to use music in non-human species. The effects of sound stimulation as a sensorial environmental enrichment for captive animals have been studied. When appropriately implemented for farm animals, it can improve welfare, health, and productivity. Furthermore, there are indications that music can induce positive emotions in non-human animals, similar to humans. Emotion is a functional state of the organism involving both physiological processes, mediated by neuroendocrine regulation, and changes in behavior, affecting various aspects, including contextual perception and welfare. As there is very limited information on non-human animals, the objective of this review is to highlight what is known about these processes from human biological and comparative perspectives and stimulate future research on using music to improve animal welfare. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
33. Enhanced sensitivity to pitch perception and its possible relation to language acquisition in autism.
- Author
-
Hisaizumi, Megumi and Tantam, Digby
- Subjects
AUTISM ,PHONOLOGICAL awareness ,MUSICAL perception ,AUDIOMETRY ,AUDITORY perception ,SPEECH perception ,LANGUAGE acquisition ,MUSICAL pitch - Abstract
Background and aims: Fascinations for or aversions to particular sounds are a familiar feature of autism, as is an ability to reproduce another person's utterances, precisely copying the other person's prosody as well as their words. Such observations seem to indicate not only that autistic people can pay close attention to what they hear, but also that they have the ability to perceive the finer details of auditory stimuli. This is consistent with the previously reported consensus that absolute pitch is more common in autistic individuals than in neurotypicals. We take this to suggest that autistic people have perception that allows them to pay attention to fine details. It is important to establish whether or not this is so as autism is often presented as a deficit rather than a difference. We therefore undertook a narrative literature review of studies of auditory perception, in autistic and nonautistic individuals, focussing on any differences in processing linguistic and nonlinguistic sounds. Main contributions: We find persuasive evidence that nonlinguistic auditory perception in autistic children differs from that of nonautistic children. This is supported by the additional finding of a higher prevalence of absolute pitch and enhanced pitch discriminating abilities in autistic children compared to neurotypical children. Such abilities appear to stem from atypical perception, which is biased toward local-level information necessary for processing pitch and other prosodic features. Enhanced pitch discriminating abilities tend to be found in autistic individuals with a history of language delay, suggesting possible reciprocity. Research on various aspects of language development in autism also supports the hypothesis that atypical pitch perception may be accountable for observed differences in language development in autism. Conclusions: The results of our review of previously published studies are consistent with the hypothesis that auditory perception, and particularly pitch perception, in autism are different from the norm but not always impaired. Detail-oriented pitch perception may be an advantage given the right environment. We speculate that unusually heightened sensitivity to pitch differences may be at the cost of the normal development of the perception of the sounds that contribute most to early language development. Implications: The acquisition of speech and language may be a process that normally involves an enhanced perception of speech sounds at the expense of the processing of nonlinguistic sounds, but autistic children may not give speech sounds this same priority. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
34. A matter of time: how musical training affects time perception.
- Author
-
Mittal, Jahanvi, Juneja, Khushi Kaur, Saumya, Saumya, and Shukla, Anuj
- Subjects
TIME perception ,MUSICAL perception ,AUDITORY perception ,VISUAL perception ,MUSICALS - Abstract
Musical training has been linked to changes in early attentional and perceptual processing. Thus, such an altered attentional and perceptual processing has enabled musicians to judge the duration differently than non-musicians. Although these claims seem intriguing, there are many questions that are not addressed yet, for example, how would the performance of musically-trained differ from that of untrained on visual and auditory temporal judgments? Is there any advantage to musically-trained person in temporal processing? To understand these questions, we thus conducted a series of Auditory and Visual Temporal Bisection Tasks on 32 musically-trained and 32 musically-untrained participants. We hypothesized that if music training modulates general sensitivity to temporal dimensions, then the temporal judgments of musically-trained participants would differ from those of untrained participants in both visual and auditory tasks. Each participant performed a total of 140 trials (70 visual and 70 auditory) in two different blocks. For each participant, a Point of Subjective Equality (PSE) was obtained for visual and auditory conditions. The findings revealed a significant modality effect on time perception, with auditory stimuli being consistently overestimated compared to visual stimuli. Surprisingly, the musically-trained group exhibited a tendency to underestimate duration relative to the musically-untrained participants. Although these results may appear counterintuitive at first glance, a detailed analysis indicates that the length of musical training plays a significant role in modulating temporal processing within the musically-trained group. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
35. Perception of reduced forms in English by non-native users of English.
- Author
-
Kul, Malgorzata
- Subjects
FORM perception ,MUSICAL perception ,NATIVE language - Abstract
The article reports the results of a study on the perception of reduced forms by non-native users of English. It tests three hypotheses: (i) reduced forms with context are recognized more accurately and faster than reduced forms without context; (ii) gradient reduction is perceived less robustly than the categorical one; and (iii) subjects with musical background perceive reduced forms better than those without. An E-Prime study on 102 Polish learners of English was implemented, comparing participants’ accuracy and reaction times with a control group of 14 native speakers. The study was corpus-based and used 287 reduced forms from a corpus of Lancashire. The results indicate that (i) lexical context and phone density significantly affect perception, (ii) the category of reduction process (gradient or categorical) is irrelevant, and (iii) musical background only partially impacts non-native perception. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
36. Choir singing is associated with enhanced structural connectivity across the adult lifespan.
- Author
-
Moisseinen, Nella, Ahveninen, Lotta, Martínez‐Molina, Noelia, Sairanen, Viljami, Melkas, Susanna, Kleber, Boris, Sihvonen, Aleksi J., and Särkämö, Teppo
- Subjects
- *
MULTIPLE regression analysis , *OLDER people , *DIFFUSION magnetic resonance imaging , *SINGING , *CORPUS callosum , *MUSICAL perception - Abstract
The global ageing of populations calls for effective, ecologically valid methods to support brain health across adult life. Previous evidence suggests that music can promote white matter (WM) microstructure and grey matter (GM) volume while supporting auditory and cognitive functioning and emotional well‐being as well as counteracting age‐related cognitive decline. Adding a social component to music training, choir singing is a popular leisure activity among older adults, but a systematic account of its potential to support healthy brain structure, especially with regard to ageing, is currently missing. The present study used quantitative anisotropy (QA)‐based diffusion MRI connectometry and voxel‐based morphometry to explore the relationship of lifetime choir singing experience and brain structure at the whole‐brain level. Cross‐sectional multiple regression analyses were carried out in a large, balanced sample (N = 95; age range 21–88) of healthy adults with varying levels of choir singing experience across the whole age range and within subgroups defined by age (young, middle‐aged, and older adults). Independent of age, choir singing experience was associated with extensive increases in WM QA in commissural, association, and projection tracts across the brain. Corroborating previous work, these overlapped with language and limbic networks. Enhanced corpus callosum microstructure was associated with choir singing experience across all subgroups. In addition, choir singing experience was selectively associated with enhanced QA in the fornix in older participants. No associations between GM volume and choir singing were found. The present study offers the first systematic account of amateur‐level choir singing on brain structure. While no evidence for counteracting GM atrophy was found, the present evidence of enhanced structural connectivity coheres well with age‐typical structural changes. Corroborating previous behavioural studies, the present results suggest that regular choir singing holds great promise for supporting brain health across the adult life span. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
37. Multimodal Embodiment Research of Oral Music Traditions: Electromyography in Oud Performance and Education Research of Persian Art Music.
- Author
-
Paschalidou, Stella
- Subjects
MUSICOLOGY ,MOTION capture (Cinematography) ,ORAL tradition ,EDUCATION research ,MUSICAL perception ,MOTION capture (Human mechanics) ,MUSICAL performance ,ELECTROMYOGRAPHY - Abstract
With the recent advent of research focusing on the body's significance in music, the integration of physiological sensors in the context of empirical methodologies for music has also gained momentum. Given the recognition of covert muscular activity as a strong indicator of musical intentionality and the previously ascertained link between physical effort and various musical aspects, electromyography (EMG)—signals representing muscle activity—has also experienced a noticeable surge. While EMG technologies appear to hold good promise for sensing, capturing, and interpreting the dynamic properties of movement in music, which are considered innately linked to artistic expressive power, they also come with certain challenges, misconceptions, and predispositions. The paper engages in a critical examination regarding the utilisation of muscle force values from EMG sensors as indicators of physical effort and musical activity, particularly focusing on (the intuitively expected link to) sound levels. For this, it resides upon empirical work, namely practical insights drawn from a case study of music performance (Persian instrumental music) in the context of a music class. The findings indicate that muscle force can be explained by a small set of (six) statistically significant acoustic and movement features, the latter captured by a state-of-the-art (full-body inertial) motion capture system. However, no straightforward link to sound levels is evident. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
38. Effects of musical expertise on line section and line extension.
- Author
-
Yilai Pei, Zhiyuan Xu, Yibo He, Xinxin Liu, Yuxuan Bai, Sze Chai Kwok, Xiaonuo Li, and Zhaoxin Wang
- Subjects
MUSICAL perception ,EXPERTISE ,MUSICALS ,BISECTORS (Geometry) ,PERFORMANCES - Abstract
Background: This study investigated whether music training led to better length estimation and/or rightward bias by comparing the performance of musicians (pianists) and non-musicians on performance of line sections and line extensions. Methods: One hundred and sixteen participants, among them 62 musicians and 54 non-musicians, participated in the present study, completed line section and line extension task under three conditions: 1/2, 1/3 and 2/3. Results: The mixed repeated measures ANOVA analysis revealed a significant group × condition interaction, that the musicians were more accurate than non-musicians in all the line section tasks and showed no obvious pseudoneglect, while their overall performance on the line extension tasks was comparable to the non-musicians, and only performed more accurately in the 1/2 line extension condition. Conclusion: These findings indicated that there was a dissociation between the effects of music training on line section and line extension. This dissociation does not support the view that music training has a general beneficial effect on line estimation, and provides insight into a potentially important limit on the effects of music training on spatial cognition. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
39. Predictive coding in musical anhedonia: A study of groove.
- Author
-
Benson, Peter, Kathios, Nicholas, and Loui, Psyche
- Subjects
- *
MUSICAL perception , *ANHEDONIA , *REWARD (Psychology) , *MUSICALS , *EMOTIONS - Abstract
Groove, or the pleasurable urge to move to music, offers unique insight into the relationship between emotion and action. The predictive coding of music model posits that groove is linked to predictions of music formed over time, with stimuli of moderate complexity rated as most pleasurable and likely to engender movement. At the same time, listeners vary in the pleasure they derive from music listening: individuals with musical anhedonia report reduced pleasure during music listening despite no impairments in music perception and no general anhedonia. Little is known about musical anhedonics' subjective experience of groove. Here we examined the relationship between groove and music reward sensitivity. Participants (n = 287) heard drum-breaks that varied in perceived complexity, and rated each for pleasure and wanting to move. Musical anhedonics (n = 13) had significantly lower ratings compared to controls (n = 13) matched on music perception abilities and general anhedonia. However, both groups demonstrated the classic inverted-U relationship between ratings of pleasure & move and stimulus complexity, with ratings peaking for intermediately complex stimuli. Across our entire sample, pleasure ratings were most strongly related with music reward sensitivity for highly complex stimuli (i.e., there was an interaction between music reward sensitivity and stimulus complexity). Finally, the sensorimotor subscale of music reward was uniquely associated with move, but not pleasure, ratings above and beyond the five other dimensions of musical reward. Results highlight the multidimensional nature of reward sensitivity and suggest that pleasure and wanting to move are driven by overlapping but separable mechanisms. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
40. Neuromagnetic representation of musical roundness in chord progressions.
- Author
-
Wöhrle, Sophie D., Reuter, Christoph, Rupp, André, and Andermann, Martin
- Subjects
PSYCHOACOUSTICS ,MUSICAL perception ,HARMONIC functions ,MUSICALS ,MUSIC theory ,MAGNETOENCEPHALOGRAPHY - Abstract
Introduction: Musical roundness perception relies on consonance/dissonance within a rule-based harmonic context, but also on individual characteristics of the listener. The present work tackles these aspects in a combined psychoacoustic and neurophysiological study, taking into account participant's musical aptitude. Methods: Our paradigm employed cadence-like four-chord progressions, based on Western music theory. Chord progressions comprised naturalistic and artificial sounds; moreover, their single chords varied regarding consonance/dissonance and harmonic function. Thirty participants listened to the chord progressions while their cortical activity was measured with magnetoencephalography; afterwards, they rated the individual chord progressions with respect to their perceived roundness. Results: Roundness ratings differed according to the degree of dissonance in the dominant chord at the progression's third position; this effect was pronounced in listeners with high musical aptitude. Interestingly, a corresponding pattern occurred in the neuromagnetic N1m response to the fourth chord (i.e., at the progression's resolution), again with somewhat stronger differentiation among musical listeners. The N1m magnitude seemed to increase during chord progressions that were considered particularly round, with the maximum difference after the final chord; here, however, the musical aptitude effect just missed significance. Discussion: The roundness of chord progressions is reflected in participant's psychoacoustic ratings and in their transient cortical activity, with stronger differentiation among listeners with high musical aptitude. The concept of roundness might help to reframe consonance/dissonance to a more holistic, gestalt-like understanding that covers chord relations in Western music. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
41. Focal Brain Lesions Causing Acquired Amusia Map to a Common Brain Network.
- Author
-
Sihvonen, Aleksi J., Ferguson, Michael A., Chen, Vicky, Soinila, Seppo, Särkämö, Teppo, and Joutsa, Juho
- Subjects
- *
LARGE-scale brain networks , *BRAIN damage , *BRAIN mapping , *GRAY matter (Nerve tissue) , *WHITE matter (Nerve tissue) , *MUSICAL perception , *NEUROLINGUISTICS , *INSULAR cortex , *VOXEL-based morphometry - Abstract
Music is a universal human attribute. The study of amusia, a neurologic music processing deficit, has increasingly elaborated our view on the neural organization of the musical brain. However, lesions causing amusia occur in multiple brain locations and often also cause aphasia, leaving the distinct neural networks for amusia unclear. Here, we utilized lesion network mapping to identify these networks. A systematic literature search was carried out to identify all published case reports of lesion-induced amusia. The reproducibility and specificity of the identified amusia network were then tested in an independent prospective cohort of 97 stroke patients (46 female and 51 male) with repeated structural brain imaging, specifically assessed for both music perception and language abilities. Lesion locations in the case reports were heterogeneous but connected to common brain regions, including bilateral temporoparietal and insular cortices, precentral gyrus, and cingulum. In the prospective cohort, lesions causing amusia mapped to a common brain network, centering on the right superior temporal cortex and clearly distinct from the network causally associated with aphasia. Lesion-induced longitudinal structural effects in the amusia circuit were confirmed as reduction of both gray and white matter volume, which correlated with the severity of amusia. We demonstrate that despite the heterogeneity of lesion locations disrupting music processing, there is a common brain network that is distinct from the language network. These results provide evidence for the distinct neural substrate of music processing, differentiating music-related functions from language, providing a testable target for noninvasive brain stimulation to treat amusia. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
42. The use of fuzzy authentication integrated with convolutional neural networks in digital content protection.
- Author
-
Wang, Junfeng
- Subjects
- *
CONVOLUTIONAL neural networks , *DIGITAL music , *MUSICAL perception , *SUPPLY chain management , *INTELLIGENT networks , *SMART structures - Abstract
In order to explore the application of neural networks in the intelligent protection of digital music copyrights, this paper initially investigates the key aspects of digital music-related supply chain management (SCM). Subsequently, this paper introduces a fuzzy, comprehensive evaluation-based method for authenticating digital music infringement. Furthermore, it employs a convolutional neural network to analyze digital music's source components. Within this context, an attention mechanism and an adaptive gate model are meticulously designed. Moreover, a selective adaptive cascade is implemented to optimize the structure of the multi-resolution coder–decoder. Through fuzzy authentication, it becomes feasible to accurately and reliably track and verify copyright information pertaining to digital music, thus providing an effective protective mechanism for the digital music industry. Experimental results reveal that in comparison with the SHN-4 series models, the network model embedded with the channel space (CS) attention module achieves improvements of up to 0.04 dB in terms of performance metrics for human voice and accompaniment sources. Furthermore, it outperforms these models by up to 0.19 dB in music source separation metrics. The incorporation of the adaptive attention mechanism profoundly enhances the model's performance in audio source separation tasks, benefiting both vocal and accompaniment sources. This improvement is evident in the form of a 0.44 SDR enhancement for vocal sources and a 0.18 SDR enhancement for accompaniment sources. Additionally, the proposed two-stage music separation-gate self-attention model surpasses the two-stage music separation-gate model in metrics associated with human voice and accompaniment sources. This outcome convincingly underscores the enhanced effectiveness achieved by integrating CS, self-attention, and adaptive connection in network performance, as well as the adaptive gate structure for music copyright protection. This approach heightens the model's autonomous selectivity, minimizes outliers, stabilizes waveform characteristics, and significantly contributes to the safeguarding of digital content. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
43. No clear evidence of a difference between individuals who self-report an absence of auditory imagery and typical imagers on auditory imagery tasks.
- Author
-
Pounder, Zoë, Eardley, Alison F., Loveday, Catherine, and Evans, Samuel
- Subjects
- *
INDIVIDUAL differences , *MENTAL imagery , *SELF-evaluation , *TASK performance , *ABSOLUTE pitch , *MUSICAL perception , *AUDITIONS - Abstract
Aphantasia is characterised by the inability to create mental images in one's mind. Studies investigating impairments in imagery typically focus on the visual domain. However, it is possible to generate many different forms of imagery including imagined auditory, kinesthetic, tactile, motor, taste and other experiences. Recent studies show that individuals with aphantasia report a lack of imagery in modalities, other than vision, including audition. However, to date, no research has examined whether these reductions in self-reported auditory imagery are associated with decrements in tasks that require auditory imagery. Understanding the extent to which visual and auditory imagery deficits co-occur can help to better characterise the core deficits of aphantasia and provide an alternative perspective on theoretical debates on the extent to which imagery draws on modality-specific or modality-general processes. In the current study, individuals that self-identified as being aphantasic and matched control participants with typical imagery performed two tasks: a musical pitch-based imagery and voice-based categorisation task. The majority of participants with aphantasia self-reported significant deficits in both auditory and visual imagery. However, we did not find a concomitant decrease in performance on tasks which require auditory imagery, either in the full sample or only when considering those participants that reported significant deficits in both domains. These findings are discussed in relation to the mechanisms that might obscure observation of imagery deficits in auditory imagery tasks in people that report reduced auditory imagery. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
44. Music and the aging brain - Exploring the role of long-term Carnatic music training on cognition and gray matter volumes.
- Author
-
Ghosh, Aishwarya, Singh, Sadhana, S., Monisha, Jagtap, Tejaswini, and Issac, Thomas Gregor
- Subjects
- *
GRAY matter (Nerve tissue) , *CARNATIC music , *OLDER people , *CINGULATE cortex , *MUSIC therapy , *MUSICAL perception - Abstract
Objectives: Aging is a natural process and is often associated with an increased incidence of cognitive impairment. Physical exercise, diet, and leisure activities (music, dance, and art) are some of the lifestyle factors that contribute to healthy aging. The present study aims to explore the differences in cognitive functioning between aging individuals involved in musical activity throughout their lifetime and the ones who were not. Materials and Methods: Fifty-one healthy elderly individuals (50-80 years of age) residing in an urban locality were selected for the study from the Tata Longitudinal Study of Aging cohort. Participants were divided into two groups: Active musicians trained in Carnatic music for more than five years (n = 18) and age-matched non-musicians (n = 33). Addenbrooke cognitive examination-III, Hindi mental status examination, and trail-making test-B (TMT-B) were used to assess cognitive functioning. A Generalized Linear Regression Model was performed including covariates such as gender, age, and years of education. We also looked at the available brain magnetic resonance imaging data of a subset of our study population to inspect the volumetric differences between musicians and non-musicians. Results: Our results showed that musicians had significantly better visuospatial abilities as compared to non-musicians (P = 0.043). Musicians (130.89 ± 45.16 s) also took less time to complete the TMT-B task than non-musicians (148.73 ± 39.65 s), although it was not a statistically significant difference (P =0.150). In addition, brain imaging data suggested that musicians had increased gray matter volumes in the right precuneus, right postcentral gyrus, right medial and superior frontal gyrus, right orbital gyrus, left middle temporal gyrus, left cuneus, left fusiform gyrus, and bilateral cingulate gyrus. Conclusion: Our findings are indicative of music being an important attribute in improving cognitive reserve and predicting cognitive resilience. These findings pave the way to explore the utility of non-pharmacological interventions, such as Music Therapy (especially Carnatic music in the Indian context), as a potential factor for improving cognitive reserve in elderly individuals. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
45. Examining the Impact of Musical Interest on Auditory Processing and Cognitive Skills in Young Adults.
- Author
-
YILDIRIM GÖKAY, Nuriye and ŞAHİN KAMIŞLI, Gurbet İpek
- Subjects
- *
YOUNG adults , *AUDITORY perception , *MUSICAL perception , *MUSICAL pitch , *PATTERN perception , *FALSE positive error , *SELECTIVITY (Psychology) - Abstract
Objective: Music has a complex structure consisting of auditory elements such as sound, rhythm and melody. The ability to perceive, understand and evaluate music is among the auditory skills. This study aims to investigate the effects of musical interest on temporal pattern recognition, auditory processing, and cognitive skills in young adults with normal hearing. Material and Methods: The study included sixty volunteer young adults with normal hearing between the ages of 18-30 ages. Young adults were divided into two groups, below (n=30) and above (n=30) average, according to their "Music Interest Scale" scores. "Frequency and Duration Pattern Tests" were applied to evaluate the participants' temporal pattern recognition skills. "STROOP Test" was used to evaluate selective attention, disruptive effect and memory skills among cognitive skills. The findings were analyzed statistically with the SPSS program, and the type 1 error level was determined as 0.05. Results: There were significant differences in STROOP subtests in terms of attention skills (p < 0.05). On the other hand, no statistically significant difference was obtained between the groups in terms of frequency and duration pattern recognition skills (p > 0.05). Conclusion: Young adults who were interested in music completed tests of selective attention, interference, and short-term memory in less time and performed better. The current study revealed that musical interest in young adults may provide positive effects on these cognitive skills. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
46. THE YOUNG'S PERCEPTION COMPETENCE IN TERMS OF ART MUSIC VERSUS THE AGE OF THE STUDY PARTICIPANTS. REFLECTIONS ON MUSIC EDUCATION.
- Author
-
BONNA, BEATA
- Subjects
MUSIC education ,MUSIC literature ,MUSICAL perception ,AGE groups ,ART education - Abstract
Copyright of Lubelski Rocznik Pedagogiczny is the property of Maria Curie-Sklodowska University in Lublin and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2024
- Full Text
- View/download PDF
47. Perception of Structure in Collective Free Improvisation and its Context Dependency: An Exploratory Analysis
- Author
-
Arthur Faraco
- Subjects
collective free improvisation ,musical structure ,musical perception ,musical composition ,Music ,M1-5000 - Abstract
This paper explores the hypothesis that similar structural notions can arise in different creative contexts, such as free improvisation and contemporary composition. Participants segmented a recorded improvisation into sequences based on personal criteria. Two groups were given different contexts: one group was informed the piece was a free improvisation, while the other was told it was a contemporary composition. Each participant analyzed one of 10 recordings. We aligned the segmentations by looking for overlaps within a specific time frame, Δt, considering segments simultaneous if they occurred within [t – Δt; t + Δt] of each other. Results indicated a high degree of similarity in perceived structure: 64% of segments overlapped within a 5-second frame, and 71% within 10 seconds. Additionally, the study found variations in the total number of segments and a correlation between sequence duration and the number of instruments used in the piece. These findings suggest that despite different contexts, there is a comparable perception of structural elements in musical pieces.
- Published
- 2024
- Full Text
- View/download PDF
48. Tinnitus treatment: an experimental study.
- Author
-
Makar, Sujoy Kumar
- Subjects
TINNITUS treatment ,MASKING (Psychology) ,SOUND ,TASK performance ,SENSORINEURAL hearing loss ,STATISTICAL sampling ,QUESTIONNAIRES ,NEUROPLASTICITY ,TREATMENT effectiveness ,SEVERITY of illness index ,AUDIOMETRY ,MUSICAL perception ,TINNITUS ,ATTENTION ,PRE-tests & post-tests ,QUALITY of life ,PSYCHOACOUSTICS ,COUNSELING ,MUSICAL pitch ,THOUGHT & thinking ,ACTIVITIES of daily living - Abstract
Objective: The objective of the present study was to compare the effectiveness of the selected tinnitus management protocols for the experimental groups, based on the scores obtained for psychosocial variables, quality of life and severity of tinnitus between the four experimental groups following the various treatment protocols. Method: Two-hundred adults ages ranged from 20 to 55 years (mean age 44.14, SD = 6.16) with mild-to-moderate sensorineural hearing loss without tinnitus were randomly selected for the control group, whereas the experimental group comprised 200 adults with mild-to-moderate sensorineural hearing loss with tinnitus without any other associated medical problems. Participants of both control and experimental groups underwent audiological tests and were administered the QoL questionnaire. The experimental group, in addition, was also administered the PSQ, TSI and THI questionnaire and psychoacoustic tests, i.e. measuring pitch, loudness and MML of tinnitus. Participants of experimental group were randomly assigned to 4 groups, each of 50 participants, and treatment was given as below: Group 1: only tinnitus masking sound was administered, Group 2: only counselling was given, Group 3: masking with counselling was given and Group 4: tinnitus masking combined with counselling and attention diversion task therapy was given. Result: The patients without tinnitus had significantly better quality of life in comparison to the patients with tinnitus. Pre-post comparisons of the treatment groups revealed that "masking + counselling + attention diversion task" group showed highly significant differences for psychosocial aspects, QoL and severity of tinnitus. Further, pairwise comparison based on differences in mean scores indicated significant impact of "masking + counselling + attention diversion task" as compared to both in combination like "masking + counselling" or independently, i.e. masking or counselling alone. Conclusion: It appears that an integrated package of intervention (masking + counselling + attention diversion task) might be preferable for providing immediate tinnitus relief by masking through reducing tinnitus loudness and pitch by altering neuroplasticity (tonotopicity); in the long term, it reduces tinnitus impact through positive thinking by counselling treatment and also diverts attention to daily activity through attention training. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
49. Chord-based music generation using long short-term memory neural networks in the context of artificial intelligence.
- Author
-
Li, Fanfan
- Subjects
- *
CHORDS (Music theory) , *ARTIFICIAL intelligence , *HIDDEN Markov models , *MULTIPLE Signal Classification , *PIANO music , *MUSICAL composition , *MUSICAL perception - Abstract
With the rapid development of artificial intelligence (AI), music generation has gained widespread attention. Long short-term memory (LSTM) has advantages in handling time series data and has achieved success in the field of music generation. This neural network is capable of capturing the long-term dependencies in music, thus generating chord music that is coherent and innovative. Therefore, to develop a creative and artistic music generation model, this study initially establishes a hidden Markov model (HMM) for chord recognition in music. Subsequently, the algorithm, leveraging the multi-style chord music generation (MSCMG) network, is proposed and applied for chord music generation. Furthermore, an evaluation of the chord music generation algorithm is conducted, utilizing LSTM neural networks within the context of AI. The findings indicate that the HMM, devised in this study, attains an impressive 81.8% chord recognition rate for piano compositions. Additionally, the algorithm, based on the MSCMG network, achieves a notable similarity score of 82.1% for generating classical-style music, with corresponding scores of 3.45, 3.42, and 3.44 for folk-style, classical-style, and pop-style music, respectively. This investigation lays the groundwork for the fusion of AI technology and music composition, exploring novel avenues for music generation and providing novel tools and insights for creative and theoretical exploration within the realm of music. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
50. New haptic systems for elicit emotions in audio-visual events for hearing impaired people.
- Author
-
Alvaro, Garcia-Lopez, Ricardo, Vergaz Benito, Jose Manuel, Sánchez Pena, Tomás, Ortiz, and Víctor, Cerdán
- Subjects
HEARING impaired ,EMOTIONS ,MUSICAL perception ,EMOTIONAL conditioning ,VIBROTACTILE stimulation ,MUSIC & emotions ,MUSIC box - Abstract
In this research we have developed devices for hearing impaired people that can transmit the emotions evoked by music. In this way, we will all achieve the full inclusion of impairment people in all social activities. As this is an issue that goes beyond pure engineering research, it has been necessary to create a multidisciplinary group within the Spanish Centre for Captioning and Audio Description (CESyA), in direct collaboration with the Display and Photonic Applications Research Group (GDAF) and the Human Language and Accessibility Technologies Group (HULAT) of the Carlos III University (UC3M) and the Psychiatry and Applied Communication Departments of the Complutense University of Madrid. For this research, a pair of haptic gloves were developed, which transmit different characteristics extracted from music by means of vibrational sequences, intended to drive an emotional reinforcement. Another device, a "music box", a vibration box, was also developed from the idea of using vibration as an instrument. Overall, the acceptance of the glove was positive, with an 80% of users accepting the negative video, repeatedly stating in the surveys that they "felt more when the glove vibrated". The music box was also well received. Volunteers felt that the system gave them a pleasant sensation and that they could feel the music. However, some participants associated the vibration with the sensation of an alarm clock, which was expectedly negative. Considering the obtained EEG results, we can conclude that the integration of simple multimodal stimuli, visual and vibrotactile, helps to enhance the activation of emotional processes linked with musical stimulation. It can also be concluded that multimodal visual and vibrotactile stimulation enhances both attentional and emotional processes. These results pave the way for future developments that will allow a hearing-impaired person to fully enjoy an audiovisual event, which will have a great impact on this group. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.