Visual Timing of Structured Dance Movements Resembles Auditory Rhythm Perception

Neural Plasticity ◽

10.1155/2016/1678390 ◽

2016 ◽

Vol 2016 ◽

pp. 1-17 ◽

Cited By ~ 6

Author(s):

Yi-Huang Su ◽

Elvira Salazar-López

Keyword(s):

Visual Perception ◽

Movement Duration ◽

Rhythm Perception ◽

Limb Movements ◽

Dance Movements ◽

Sensorimotor Coupling ◽

Musical Rhythms ◽

Mental Recall ◽

Regular Patterns

Temporal mechanisms for processing auditory musical rhythms are well established, in which a perceived beat is beneficial for timing purposes. It is yet unknown whether such beat-based timing would also underlie visual perception of temporally structured, ecological stimuli connected to music: dance. In this study, we investigated whether observers extracted a visual beat when watching dance movements to assist visual timing of these movements. Participants watched silent videos of dance sequences and reproduced the movement duration by mental recall. We found better visual timing for limb movements with regular patterns in the trajectories than without, similar to the beat advantage for auditory rhythms. When movements involved both the arms and the legs, the benefit of a visual beat relied only on the latter. The beat-based advantage persisted despite auditory interferences that were temporally incongruent with the visual beat, arguing for the visual nature of these mechanisms. Our results suggest that visual timing principles for dance parallel their auditory counterparts for music, which may be based on common sensorimotor coupling. These processes likely yield multimodal rhythm representations in the scenario of music and dance.

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Change of Manual Movement Duration Depending on Visual Perception of Senior Preschool Children

Proceedings of the International Conference “Health and wellbeing in modern society” (ICHW 2020) ◽

10.2991/ahsr.k.201001.035 ◽

2020 ◽

Author(s):

A.A. Guchetl ◽

A.A. Pseunok ◽

A.Ya. Chamokova ◽

M.G. Hatkhokhu ◽

Kh.A. Namitokov ◽

...

Keyword(s):

Preschool Children ◽

Visual Perception ◽

Movement Duration ◽

Manual Movement

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Prefrontal High Gamma in ECoG tags periodicity of musical rhythms in perception and imagination

10.1101/784991 ◽

2019 ◽

Author(s):

S. A. Herff ◽

C. Herff ◽

A. J. Milne ◽

G. D. Johnson ◽

J. J. Shih ◽

...

Keyword(s):

Auditory Processing ◽

Right Hemisphere ◽

Brain Activity ◽

Activity Patterns ◽

Superior Temporal Gyrus ◽

Gamma Activity ◽

Rhythm Perception ◽

High Gamma ◽

The Right ◽

Musical Rhythms

AbstractRhythmic auditory stimuli are known to elicit matching activity patterns in neural populations. Furthermore, recent research has established the particular importance of high-gamma brain activity in auditory processing by showing its involvement in auditory phrase segmentation and envelope-tracking. Here, we use electrocorticographic (ECoG) recordings from eight human listeners, to see whether periodicities in high-gamma activity track the periodicities in the envelope of musical rhythms during rhythm perception and imagination. Rhythm imagination was elicited by instructing participants to imagine the rhythm to continue during pauses of several repetitions. To identify electrodes whose periodicities in high-gamma activity track the periodicities in the musical rhythms, we compute the correlation between the autocorrelations (ACC) of both the musical rhythms and the neural signals. A condition in which participants listened to white noise was used to establish a baseline. High-gamma autocorrelations in auditory areas in the superior temporal gyrus and in frontal areas on both hemispheres significantly matched the autocorrelation of the musical rhythms. Overall, numerous significant electrodes are observed on the right hemisphere. Of particular interest is a large cluster of electrodes in the right prefrontal cortex that is active during both rhythm perception and imagination. This indicates conscious processing of the rhythms’ structure as opposed to mere auditory phenomena. The ACC approach clearly highlights that high-gamma activity measured from cortical electrodes tracks both attended and imagined rhythms.

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Visual perception of the relative phasing of human limb movements

Perception & Psychophysics ◽

10.3758/bf03206886 ◽

1999 ◽

Vol 61 (2) ◽

pp. 246-258 ◽

Cited By ~ 75

Author(s):

Geoffrey P. Bingham ◽

Richard C. Schmidt ◽

Frank T. J. M. Zaal

Keyword(s):

Visual Perception ◽

Limb Movements ◽

Human Limb

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Auditory Superiority for Perceiving the Beat Level but not the Measure Level in Music

10.31234/osf.io/ch7ds ◽

2020 ◽

Author(s):

Jessica Erin Nave-Blodgett ◽

Erin Hannon ◽

Joel S. Snyder

Keyword(s):

Visual Perception ◽

Auditory Perception ◽

Musical Training ◽

Enhanced Sensitivity ◽

Musical Excerpts ◽

Hierarchical Levels ◽

Musical Knowledge ◽

Adults And Children ◽

Perception Of Time ◽

Musical Rhythms

Auditory perception of time is superior to visual perception, both for simple intervals and beat-based musical rhythms. To what extent does this auditory advantage characterize perception of different hierarchical levels of musical meter, and how is it related to lifelong experience with music? We paired musical excerpts with auditory and visual metronomes that matched or mismatched the musical meter at the beat (faster) and measure (slower) levels and obtained fit ratings from adults and children (5-10 years). Adults exhibited an auditory advantage in this task for the beat level, but not for the measure level. Children also displayed an auditory advantage for the beat level, their sensitivity to beat in both modalities increased with age, and they were not sensitive to measure-level matching in either modality. More musical training was related to enhanced sensitivity in both auditory and visual modalities for measure-level matching in adults and beat-level matching in children. These findings provide evidence for auditory superiority of beat perception across development, and they suggest that beat and meter perception develop quite gradually and rely on lifelong acquisition of musical knowledge.

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Bonafide Substructure in the Core of Ferritin

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100118485 ◽

1985 ◽

Vol 43 ◽

pp. 322-323

Author(s):

William H. Massover

Keyword(s):

Phase Contrast ◽

Central Cavity ◽

Amplitude Image ◽

Ultrastructural Studies ◽

The Core ◽

Hydrated Ferric Oxide ◽

Imaging Artifact ◽

Contrast Image ◽

Protein Shell ◽

Regular Patterns

Each molecule of ferritin (d = 130Å) contains a core of iron surrounded by a 24-subunit protein shell. The amount of iron stored is variable and is present within the central cavity (d = 80Å) as a hydrated ferric oxide equivalent to the mineral, ferrihydrite. Many early ultrastructural studies of ferritin detected regular patterns of a multiparticulate substructure in the iron-rich core [e.g., 3,4], Each small particle was termed a “micelle“; a theory became widely accepted that a core consisted of up to six micelles positioned at the vertices of an octahedron. Other workers recognized that the apparent micelles were smaller or even disappeared if images were recorded closer to exact focus [e.g., 5]. In 1969, Haydon clearly established that the observed substructure was really an imaging artifact; each apparent micelle was only a dot in the underfocused phase contrast image of the supporting film superimposed on the amplitude image of the strongly scattering metal.

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The buckling of thin EM specimens

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100177386 ◽

1990 ◽

Vol 48 (4) ◽

pp. 850-851

Author(s):

A.R. Thölén

Keyword(s):

Electron Microscope ◽

Elastic Properties ◽

Crystal Surface ◽

Specimen Surface ◽

Radius Of Curvature ◽

Thin Foils ◽

Thin Electron ◽

Regular Patterns

Thin electron microscope specimens often contain irregular bend contours (Figs. 1-3). Very regular bend patterns have, however, been observed around holes in some ion-milled specimens. The purpose of this investigation is twofold. Firstly, to find the geometry of bent specimens and the elastic properties of extremely thin foils and secondly, to obtain more information about the background to the observed regular patterns.The specimen surface is described by z = f(x,y,p), where p is a parameter, eg. the radius of curvature of a sphere. The beam is entering along the z—direction, which coincides with the foil normal, FN, of the undisturbed crystal surface (z = 0). We have here used FN = [001]. Furthermore some low indexed reflections are chosen around the pole FN and in our fcc crystal the following g-vectors are selected:

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Cognitive Load Affects Speech Motor Performance Differently in Older and Younger Adults

Journal of Speech Language and Hearing Research ◽

10.1044/2018_jslhr-s-17-0222 ◽

2019 ◽

Vol 62 (5) ◽

pp. 1258-1277 ◽

Cited By ~ 1

Author(s):

Megan K. MacPherson

Keyword(s):

Older Adults ◽

Cognitive Load ◽

Motor Performance ◽

Age Groups ◽

Incongruent Condition ◽

Sentence Production ◽

Movement Duration ◽

Production Task ◽

Younger Adults ◽

Speech Motor

PurposeThe aim of this study was to determine the impact of cognitive load imposed by a speech production task on the speech motor performance of healthy older and younger adults. Response inhibition, selective attention, and working memory were the primary cognitive processes of interest.MethodTwelve healthy older and 12 healthy younger adults produced multiple repetitions of 4 sentences containing an embedded Stroop task in 2 cognitive load conditions: congruent and incongruent. The incongruent condition, which required participants to suppress orthographic information to say the font colors in which color words were written, represented an increase in cognitive load relative to the congruent condition in which word text and font color matched. Kinematic measures of articulatory coordination variability and movement duration as well as a behavioral measure of sentence production accuracy were compared between groups and conditions and across 3 sentence segments (pre-, during-, and post-Stroop).ResultsIncreased cognitive load in the incongruent condition was associated with increased articulatory coordination variability and movement duration, compared to the congruent Stroop condition, for both age groups. Overall, the effect of increased cognitive load was greater for older adults than younger adults and was greatest in the portion of the sentence in which cognitive load was manipulated (during-Stroop), followed by the pre-Stroop segment. Sentence production accuracy was reduced for older adults in the incongruent condition.ConclusionsIncreased cognitive load involving response inhibition, selective attention, and working memory processes within a speech production task disrupted both the stability and timing with which speech was produced by both age groups. Older adults' speech motor performance may have been more affected due to age-related changes in cognitive and motoric functions that result in altered motor cognition.

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