Event Segmentation and Biological Motion Perception in Watching Dance

Noble, Katie; Glowinski, Donald; Murphy, Helen; Jola, Corinne; McAleer, Phil; Darshane, Nikhil; Penfield, Kedzie; Kalyanasundaram, Sandhiya; Camurri, Antonio; Pollick, Frank E.

doi:10.1163/22134913-00002011

Cited by 21 publications

(23 citation statements)

References 51 publications

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“…Here also, from the constituent RDM's, it can be seen that some of the stimuli that stand out for cLightness are also rated very dissimilar to other stimuli on bMotion. Indeed, the region (EBA, or including EBA) in the OTC where cLightness, bMotion, and cSymmetry (left only) overlap has previously been found in a study where computational parameters as well as behavioral parameters of a dance video covary with the BOLD signal (Noble et al 2014).…”

Section: Relations Between Stimulus Categories Computational and Behmentioning

confidence: 71%

“…The former only activated left dorsal premotor, dorsolateral prefrontal cortex, and medial frontal cortex. Another recent study that gets closer to understanding movement features and brain activity calculated the relation between the motion index (an index of whole-body movement) and brain activation (Noble et al 2014). Results showed that the motion index was related to brain activity in a single cluster in the right inferior temporal gyrus, an area frequently reported in the studies of body movement perception as seen in a recent meta-analysis (Grosbras et al 2012).…”

Section: Introductionmentioning

confidence: 98%

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Computational Feature Analysis of Body Movements Reveals Hierarchical Brain Organization

et al. 2018

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Social species spend considerable time observing the body movements of others to understand their actions, predict their emotions, watch their games, or enjoy their dance movements. Given the important information obtained from body movements, we still know surprisingly little about the details of brain mechanisms underlying movement perception. In this fMRI study, we investigated the relations between movement features obtained from automated computational analyses of video clips and the corresponding brain activity. Our results show that low-level computational features map to specific brain areas related to early visual- and motion-sensitive regions, while mid-level computational features are related to dynamic aspects of posture encoded in occipital–temporal cortex, posterior superior temporal sulcus and superior parietal lobe. Furthermore, behavioral features obtained from subjective ratings correlated with activity in higher action observation regions. Our computational feature-based analysis suggests that the neural mechanism of movement encoding is organized in the brain not so much by semantic categories than by feature statistics of the body movements.

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Section: Relations Between Stimulus Categories Computational and Behmentioning

confidence: 71%

Section: Introductionmentioning

confidence: 98%

Computational Feature Analysis of Body Movements Reveals Hierarchical Brain Organization

et al. 2018

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“…Visual familiarity was induced in the current study by repeated presentation of the same stimulus dance phrase. This approach clearly differs from the approaches taken in other segmentation studies in which observes typically watched the same action twice, in part with different instructions (e.g., coarse vs. fine segmentation, Zacks et al, 2009 ; Sargent et al, 2013 ; or just watching vs. segmenting, Noble et al, 2014 ). Under natural conditions, actions are not repeated in exactly the same way, and segmentation occurs spontaneously as part of perceptual processing.…”

Section: Experiments 2: Segmentation Of a Dance Phrase Before And Aftementioning

confidence: 83%

“…Dance expertise should therefore not only enable dancers to perform movement phrases fluently, but should also influence their perception of observed movement material in favor of fluency and greater over-all connectedness. Only few studies have investigated the segmentation of dance-like actions (e.g., Pollick et al, 2012 ; Noble et al, 2014 ), and so far none has focused on effects of dance expertise on segmentation. Evidence from preliminary studies suggests that observers' dance expertise affects the segmentation of dance-like actions, but not of other actions that have an obvious external goal (Bläsing et al, 2010 ).…”

Section: Introductionmentioning

confidence: 99%

Segmentation of dance movement: effects of expertise, visual familiarity, motor experience and music

Bläsing

2015

Front. Psychol.

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According to event segmentation theory, action perception depends on sensory cues and prior knowledge, and the segmentation of observed actions is crucial for understanding and memorizing these actions. While most activities in everyday life are characterized by external goals and interaction with objects or persons, this does not necessarily apply to dance-like actions. We investigated to what extent visual familiarity of the observed movement and accompanying music influence the segmentation of a dance phrase in dancers of different skill level and non-dancers. In Experiment 1, dancers and non-dancers repeatedly watched a video clip showing a dancer performing a choreographed dance phrase and indicated segment boundaries by key press. Dancers generally defined less segment boundaries than non-dancers, specifically in the first trials in which visual familiarity with the phrase was low. Music increased the number of segment boundaries in the non-dancers and decreased it in the dancers. The results suggest that dance expertise reduces the number of perceived segment boundaries in an observed dance phrase, and that the ways visual familiarity and music affect movement segmentation are modulated by dance expertise. In a second experiment, motor experience was added as factor, based on empirical evidence suggesting that action perception is modified by visual and motor expertise in different ways. In Experiment 2, the same task as in Experiment 1 was performed by dance amateurs, and was repeated by the same participants after they had learned to dance the presented dance phrase. Less segment boundaries were defined in the middle trials after participants had learned to dance the phrase, and music reduced the number of segment boundaries before learning. The results suggest that specific motor experience of the observed movement influences its perception and anticipation and makes segmentation broader, but not to the same degree as dance expertise on a professional level.

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“…Yet dance is a fluent combination of movements extending over time and potentially coded as a specifically choreographed chain of actions. More recent research on dance has started to make use of longer and more naturalistic stimuli (Jola et al 2012;Jola & Grosbras 2014;Noble et al 2014;Grosbras et al 2012b, Herbec et al in press) however the question of how single movements or gestures are combined into a coherent whole has been largely left unstudied.…”

Section: Introductionmentioning

confidence: 99%

Neuronal bases of structural coherence in contemporary dance observation

2016

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The neuronal processes underlying dance observation have been the focus of an increasing number of brain imaging studies over the past decade. However, the existing literature mainly dealt with effects of motor and visual expertise, whereas the neural and cognitive mechanisms that underlie the interpretation of dance choreographies remained unexplored. Hence, much attention has been given to the action observation network (AON) whereas the role of other potentially relevant neuro-cognitive mechanisms such as mentalizing (theory of mind) or language (narrative comprehension) in dance understanding is yet to be elucidated. We report the results of an fMRI study where the structural coherence of short contemporary dance choreographies was manipulated parametrically using the same taped movement material. Our participants were all trained dancers. The whole-brain analysis argues that the interpretation of structurally coherent dance phrases involves a subpart (superior parietal) of the AON as well as mentalizing regions in the dorsomedial prefrontal cortex. An ROI analysis based on a similar study using linguistic materials (Pallier et al., 2011) suggests that structural processing in language and dance might share certain neural mechanisms.

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Event Segmentation and Biological Motion Perception in Watching Dance

Cited by 21 publications

References 51 publications

Computational Feature Analysis of Body Movements Reveals Hierarchical Brain Organization

Computational Feature Analysis of Body Movements Reveals Hierarchical Brain Organization

Segmentation of dance movement: effects of expertise, visual familiarity, motor experience and music

Neuronal bases of structural coherence in contemporary dance observation

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