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Considering the Benefits of Digital Grammar in a Music Educational Program
REFLECTION
Music Teaching Technology for Beginners.
Synapse transmission between neurons in different systems of dimension -
how can it improve the music education for beginners ?
Physiological Base
The physiological substantiation on the application of the digital system for
coding and decoding of a melody is the following : children begin their contact with
digits already in preschool age , when they are taught to count and this system is learned
by children quite firmly , since it is often used in their daily life. But the generally
accepted music grammar is new for them and, naturally, requires some additional period
of time to be acquired by children.It is for that reason that in the initial period of musical
teaching, children inevitably spend a lot of time and efforts to read a melody written
down in music signs.Naturally, it slows down rate of training, causes psycho-emotional
discomfort , lowers the child’s interest to music. Therefore , in the initial stage of
teaching , besides work with the generally accepted music grammar , will be useful to
replace it with a digital system for a certain period. This does not mean that we want to
do without standard music grammar, but at the initial stages of musical education, the
system of digital coding and decoding of music sounds is undoubtedly useful , as it
speeds up teaching of children.
Neurophysiological Aspect
It is well known that the difficulties in the perception of any information, including
musical one, cause strain of the main functional systems in the child’s organism. The
developed digital technology of musical training is perspective, has a practical result, but
it requires the physiologic and psychology researches devoted to studying of an
influence of a recommended method to psycho - emotional status and to a condition of
the main functional systems of the child’s organism : the central nervous system, the
muscular system and others. For this purpose , the experimental researches are to be
performed, namely: ENG, EMG, EEG – tests to study the degree of mental load that the
child has received in perception of the information recorded in the note signs compared to
the load that a child has received in perception of the music information written down in
number signs.Test Electronystagmography allows us to investigate eyeshot, positional
nystagmus and also to determine the quantity of fluctuations of the eyeballs during the
perception of melody written in the music marks and digital symbols. Electromyography
test, allows us to investigate the threshold of muscular irritability ( min – max ) and
amplitude of muscle tension , depending on effort and accuracy of pressing of a key on
the keyboard of the instrument. The method of ENG and EMG joins the visual analyzer
with neuro motor function of the hands and explains, on the scientific point of view, the
ratio between the load on muscles of eyes and muscles of hands, and also it proves the
possibility of development of muscular fatigue in hands depending on the quantity of

eyeballs’ fluctuations. EEG - test allows us to make up the comparative diagrams of
dynamics of the proceeding neurophysiological processes, and also it offers an
opportunity to investigate the functional activity of neurons during the synthesis both of
music and digital patterns.
The realization of the described scientific researches in this direction will allow us to
approach closer to understanding of more subtle mechanisms of the child’s mental
activity and to detect the new creative abilities.
Parallel Description
In practice, using the generally accepted music grammar, the child connects the
definition of the location of the melody to the pitch i.e., to the system of dimension ,
which is written down in the form of an expanded construction , both on x – the
horizontal and on y - the vertical. By reading the music information ,the direction of
eyeballs’ movements is spasmodic, and it has a multi–step combination both on y – the
vertical , from the G - key up to the F - key , and on x - the horizontal often with a return
of eyesight to the starting point of support. For en integration , synthesis and the
modification of the complex pattern of the received information the structures of the
central nervous system require an additional period of time. It is a neurophysiological
process proceeding in an interval of time between the moment of perception of the music
information from the sheet and the moment of the hands’ response on the keyboard of an
instrument. A great number of irregular nervous impulses is transferred to the central
nervous system per unit of time and , as the consequence of this , the fatigue of hand
muscles is considerably increased (Berosov, Korovkin1990). An amplitude of muscle
tension is directly dependent on the frequency of innervation, where each subsequent
nervous impulse coincides with the phase of increased excitability of the muscle ( Green,
Stout,Taylor 1990 ). At the level of the synaptic terminal we can see untimely synthesis
of the neurotransmitter, deep and stable depolarization of the postsynaptic membrane
and,as a result,the convulsive reflexes are thus formed.An important neurophysiological
moment has been marked : within a short time interval the contracture , that is ,
constantly high muscular tension is formed, which in turn , is harmfully reflected on the
content and character of the melody.
In practice , using the method of the digital key, the child connects the definition of
digital melody to the system of dimension which is written down in the form of an
integral construction both on x – the horizontal and on y – the vertical . Reading the
digital information the trajectory of eyeballs’ movements on y– the vertical is
projected to the exact determinant ( digit ,sign, symbol ), the trajectory of eyeballs’
movements on x – the horizontal is projected in one direction, forward. In the given
system of dimension the integration of the digital information proceeds instantly, its
realization on an instrument proceeds in reflexive time - ratio. The paradoxical
phenomenon is revealed : the time interval between the moment of perception of the
digital information and the moment of the hands’ response on the keyboard of an
instrument, is contracted to the minimum .We achieve a reduction of load on hand
muscles at the expense of decreasing of an amplitude between muscle tension and the
resulting movement and, consequently , the time intervals between effort and accuracy of
pressing of a key are considerably shortened .At the level of the synaptic terminal we can

see an allocation of neurotransmitter directly proportionally to the frequency of
generated impulses by neurons and , as a result , the coordinated reflexes are thus formed.
An important neurophysiological moment has been marked : the reciprocal muscular
innervation is formed , that is, the rational distribution of the manual technique on the
keyboard of an instrument, which in turn, is considerably reflected on the content and
character of the melody. Grain of truth lies in the fact that at the expense of perception
of melody by means of digits its realization becomes faster and easier, which in turn , is
positively reflected on the psycho-emotional status of the child and enables him to
dynamically realize the potential music abilities in psychosomatic action as a result .
Entire description on related research You can read at the webpages :
http://educationinjapan.wordpress.com/2011/02/04/considering-the-benefits-of-digital-
music-grammar-in-a-music- educational-program/
http://www.m-piremagazine.com/Sergey.html review by Joe Gentile
http://reflectionmusic.ucoz.com/
List of References
1.Beresov T.T. & Korovkin B.F.,(1990). The role of mediators in transmission of
nervous impulses. Biological chemistry. p.498-500. Moscow .
2.Green A.P.Q. & Stout G.W.& Taylor D.J.,(1990).Contracting reaction. Synapse.
Biological science.
vol.3.p.19-20,23,26.vol.2.p.253-258.Moscow.
A b s t r a c t
Throughout many centuries, the musical structure has had numerous
modifications. We can observe the constant use of digits for convenience
of notation of the music sounds, for example : digital organ bass, lute
tablatures, guitar jazz ciphers. At nowadays the digital system of music
teaching is absent in the curriculum and is not applied in practice
because of teacher's insufficient professional knowledge in the sphere of
child's neurophysiology . The findings of our scientific investigations have
permit us to understand the most delicate mechanisms of child’s mental
activity and to detect new creative
abilities.Application of the information technologies will help
schoolmasters to improve the quality, speed and efficiency of music
teaching for beginners.
С U R R I C U L U M V I T A E
I , Stepanov Sergey Mikhailovich , was born on 1960 in Karelia Autonomous

Republic ( this is between Finland and Russia). I was educated at Grammar School and
Musical School at the same time. In 1975 I entered and in 1979 finished the complete
course of Krivoy Rog State Musical College by speciality of accordion. After graduation
I began to work as a teacher of music on accordion class, piano class and as a conductor
of the orchestra .On the basis of acquired experience together with pediatrician Kolesnik
V. D. the children Project " Reflection " was elaborated -
http://reflectionmusic.ucoz.com/ . Joint Inventive Activity was proved with the
Author License in the Ukraine. At present I am working on the creation of digital
school-books on music teaching of children both preschool period ( 5-7 years old ) and
early school period ( 7-9 years old ) .We consider the children would benefit by further
study .

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