TY - CHAP
T1 - Music perception as reflected in bispectral EEG analysis under a mirror neurons-based approach
AU - Doulgeris, Panagiotis
AU - Hadjidimitriou, Stelios
AU - Panoulas, Konstantinos
AU - Hadjileontiadis, Leontios
AU - Panas, Stavros
PY - 2008
Y1 - 2008
N2 - One important goal of many intelligent interactive systems is dynamic personalization and adaptivity to users. 'Motion' and intention that are involved in the individual perception of musical structure combined with mirror neuron (MN) system activation are studied in this article. The mechanism of MN involved in the perception of musical structures is seen as a means for cueing the learner on 'known' factors that can be used for his/her knowledge scaffolding. To explore such relationships, EEG recordings, and especially the Mu-rhythm in the premotor cortex that relates to the activation of MN, were acquired and explored. Three experiments were designed to provide the auditory and visual stimuli to a group of subjects, including both musicians and non-musicians. The acquired signals, after appropriate averaging in the time domain, were analysed in frequency and bifrequency domains, using spectral and bispectral analysis, respectively. Experimental results have shown that an intention-related activity shown in musicians could be associated with Mu-rhythm suppression. Moreover, an underlying ongoing function appearing in the transition from heard sound to imagined sound could be revealed in the bispectrum domain and a Mu-rhythm modulation provoked by the MNs could cause bispectral fluctuations, especially when visual stimulation is combined with an auditory one for the case of musicians. These results pave the way for transferring the research in the area of blind or visually impaired people, where hearing is the main information sensing tool.
AB - One important goal of many intelligent interactive systems is dynamic personalization and adaptivity to users. 'Motion' and intention that are involved in the individual perception of musical structure combined with mirror neuron (MN) system activation are studied in this article. The mechanism of MN involved in the perception of musical structures is seen as a means for cueing the learner on 'known' factors that can be used for his/her knowledge scaffolding. To explore such relationships, EEG recordings, and especially the Mu-rhythm in the premotor cortex that relates to the activation of MN, were acquired and explored. Three experiments were designed to provide the auditory and visual stimuli to a group of subjects, including both musicians and non-musicians. The acquired signals, after appropriate averaging in the time domain, were analysed in frequency and bifrequency domains, using spectral and bispectral analysis, respectively. Experimental results have shown that an intention-related activity shown in musicians could be associated with Mu-rhythm suppression. Moreover, an underlying ongoing function appearing in the transition from heard sound to imagined sound could be revealed in the bispectrum domain and a Mu-rhythm modulation provoked by the MNs could cause bispectral fluctuations, especially when visual stimulation is combined with an auditory one for the case of musicians. These results pave the way for transferring the research in the area of blind or visually impaired people, where hearing is the main information sensing tool.
KW - Bispectrum
KW - EEG
KW - Intention
KW - Mirror neurons
KW - Motion
KW - Mu-rhythm
KW - Music
KW - Spectrum
UR - http://www.scopus.com/inward/record.url?scp=52049120842&partnerID=8YFLogxK
U2 - 10.1007/978-3-540-68127-4_14
DO - 10.1007/978-3-540-68127-4_14
M3 - Chapter
AN - SCOPUS:52049120842
SN - 9783540681267
T3 - Studies in Computational Intelligence
SP - 137
EP - 146
BT - New Directions in Intelligent Interactive Multimedia
A2 - Tsihrintzis, George
A2 - Virvou, Maria
A2 - Howlett, Robert
A2 - Jain, Lakhmi
ER -