Observation of sonified movements engages a basal ganglia frontocortical network

Schmitz, Gerd; Mohammadi, Bahram; Hammer, Anke; Heldmann, Marcus; Samii, Amir; Münte, Thomas F.; Effenberg, Alfred O.

doi:10.1186/1471-2202-14-32

Cited by 67 publications

(89 citation statements)

References 63 publications

(55 reference statements)

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“…For instance, whilst the mirror system is mostly understood as a visual system sensitive to biological motion information, it is actually also tuned to auditory (Kohler et al, 2002; Bidet-Caulet et al, 2005) and audiovisual information (Lahav et al, 2007). Neuroimaging evidence shows enhanced activation of most parts of the action observation system (medial and superior temporal sulcus, inferior parietal cortex, premotor regions, and subcortical structures) when observing agents’ convergent compared to divergent audiovisual movement patterns (Schmitz et al, 2013). …”

Section: Sharing Sensorimotor Informationmentioning

confidence: 99%

Joint Action: Mental Representations, Shared Information and General Mechanisms for Coordinating with Others

Vesper¹,

et al. 2017

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In joint action, multiple people coordinate their actions to perform a task together. This often requires precise temporal and spatial coordination. How do co-actors achieve this? How do they coordinate their actions toward a shared task goal? Here, we provide an overview of the mental representations involved in joint action, discuss how co-actors share sensorimotor information and what general mechanisms support coordination with others. By deliberately extending the review to aspects such as the cultural context in which a joint action takes place, we pay tribute to the complex and variable nature of this social phenomenon.

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Section: Sharing Sensorimotor Informationmentioning

confidence: 99%

Joint Action: Mental Representations, Shared Information and General Mechanisms for Coordinating with Others

Vesper¹,

et al. 2017

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“…Participants listened to the environmental sound of footsteps presented binaurally and were able to indicate when and to which direction (left or right of auditory field) the sound changed from one side to the other (Bidet-Caulet et al, 2005). Following their fMRI data, Schmitz et al (2013) suppose that specific brain areas (STS, mirror neuron system), which are involved in visual motion perception are activated also during auditory perception of artificial movement sounds as a part of multisensory integration (Lahav et ai, 2007). Another line of argumentation refers to a common code principle when explaining the advantages of multisensory stimuli compared to unisensory stimuli.…”

Section: Introductionmentioning

confidence: 98%

“…Meanwhile research on biological motion perception has been expanded to other modalities, as to the auditory domain on natural motion sounds (Bidet-Caulet et al, 2005). Current research is indicating that also artificial movement acoustics is feasible to address mechanisms of biological motion perception enabling participants to assess qualitative and quantitative features of gross motor movements Schmitz et al, 2013). But it still remains unclear if complex movement patterns can be identified based on artificial kinematic movement sonification alone and without respective auditory experience.…”

Section: Introductionmentioning

confidence: 99%

Auditory Coding of Human Movement Kinematics

et al. 2013

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Although visual perception is dominant on motor perception, control and learning, auditory information can enhance and modulate perceptual as well as motor processes in a multifaceted manner. During last decades new methods of auditory augmentation had been developed with movement sonification as one of the most recent approaches expanding auditory movement information also to usually mute phases of movement. Despite general evidence on the effectiveness of movement sonification in different fields of applied research there is nearly no empirical proof on how sonification of gross motor human movement should be configured to achieve information rich sound sequences. Such lack of empirical proof is given for (a) the selection of suitable movement features as well as for (b) effective kinetic-acoustical mapping patterns and for (c) the number of regarded dimensions of sonification. In this study we explore the informational content of artificial acoustical kinematics in terms of a kinematic movement sonification using an intermodal discrimination paradigm. In a repeated measure design we analysed discrimination rates of six everyday upper limb actions to evaluate the effectiveness of seven different kinds of kinematic-acoustical mappings as well as short-term learning effects. The kinematics of the upper limb actions were calculated based on inertial motion sensor data and transformed into seven different sonifications. Sound sequences were randomly presented to participants and discrimination rates as well as confidence of choice were analysed. Data indicate an instantaneous comprehensibility of the artificial movement acoustics as well as short-term learning effects. No differences between different dimensional encodings became evident thus indicating a high efficiency for intermodal pattern discrimination for the acoustically coded velocity distribution of the actions. Taken together movement information related to continuous kinematic parameters can be transformed into the auditory domain. Additionally, pattern based action discrimination is obviously not restricted to the visual modality. Artificial acoustical kinematics might be used to supplement and/or substitute visual motion perception in sports and motor rehabilitation.

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“…The relatively close neural connections between auditory and motor areas may explain these audio-motor interactions (Bengtsson et al, 2009;Haueisen & Knöshe, 2001;Schmitz et al, 2013). Furthermore, a growing number of studies report that the audiovisual perception of sonified movement modulates the activity of the multisensory brain areas which then might lead to a more accurate representation of the movement (Bangert et al, 2006;Butler, James, & James, 2011;Le Bel, Pineda, & Sharma, 2009;Scheef et al, 2009;Schmitz et al, 2013). Finally, in addition to their informative characteristics, sounds can be playful and motivate learners (Schaffert, Barrass, & Effenberg, 2009).…”

Section: Introductionmentioning

confidence: 99%