Effect of Chinese Zither Performance Training on Brain Function of
Autistic Children
Yunan Zhao
1a
, Wei Lv
1b
,Yi Xie
1c
and Mengyi Zhang
2d
1
School of Electrical Engineering, Shenyang University of Technology, ShenYang, LiaoNing, China
2
Shenyang Conservatory of music, ShenYang, LiaoNing, China
Keywords: Autism, Power Spectrum, Sample Entropy, Chinese Zither Performance Training.
Abstract: Based on the EEG signal analysis method of power spectrum and sample entropy, this paper analyzes the
EEG signals of children with autism (ASD) after different cycles of training, and studies the effect of Chinese
Zither performance training on the brain function of ASD children. Eight ASD children, with an average age
of 13, were trained in zither performance for 4 months, and EEG signals were collected once a month. The
results showed that the relative power of alpha frequency band increased after the training of Chinese Zither
performance, and the occipital lobe was more obvious, and there was a gradual upward trend with the increase
of training cycle; the relative power of theta band decreases, and the parietal lobe is more obvious, and has a
gradual downward trend; the sample entropy is higher than that before training, showing a gradually
increasing trend, and the complexity of the brain is also gradually increasing. It proves that Chinese Zither
performance training has a positive impact on the brain function of ASD children, and Chinese Zither
performance training may become a new direction of intervention and treatment of autism.
1 INTRODUCTION
Autism, also known as autism, that is, autism
spectrum disorders (ASD), is characterized by social
language disorder, rigid and strange behavior,
accompanied by growth retardation, etc (Kocsis
2013). Generally, the symptoms of autism will show
some characteristics in the early stage of children's
development, about 3 years old(Hu 2021).The
intelligence of autistic children is mostly lower than
the normal level. At the same time, autism is usually
accompanied by a series of health problems.
Therefore, most patients with autism cannot live
alone, which brings great pressure to the family. At
present, there are more than 10 million people with
autism in China, and the number is increasing year by
year. Autism has gradually attracted extensive
attention from the society.
Nowadays, although the research on autism is
more and more in-depth, its etiology has not been
found. Many studies on genetic inheritance show that
a
https://orcid.org/0000-0003-4167-8355
b
https://orcid.org/0000-0002-4996-0729
c
https://orcid.org/0000-0003-0422-6894
d
https://orcid.org/0000-0001-8733-5046
autism may be a genetic comprehensive disease, but
no authoritative person gives a clear conclusion.
There is still no clear plan for the treatment of autism,
so we can only carry out some nondestructive and
harmless intervention treatment. Therefore, the in-
depth study of autism still has a long way to go.
Music therapy combines many disciplines,
integrates the knowledge and skills of psychology and
pedagogy into music, and achieves the purpose of
helping patients improve their cognitive ability,
emotional state and psychological situation by means
of music activities(Sun 2018). The developmental
disorders of autistic children have strong specificity,
and different patients have different manifestations. It
is very difficult to select subjects in various studies,
and music therapy is usually treated alone, so the
number of subjects is small. The adaptive music
training of Chinese Zither for autistic children
conforms to the international advanced education
concept of autism-cultivating one skill, making use of
the low sensitivity of the sound of Chinese Zither
Zhao, Y., Lv, W., Xie, Y. and Zhang, M.
Effect of Chinese Zither Performance Training on Brain Function of Autistic Children.
DOI: 10.5220/0011237100003438
In Proceedings of the 1st International Conference on Health Big Data and Intelligent Healthcare (ICHIH 2022), pages 157-163
ISBN: 978-989-758-596-8
Copyright
c
2022 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
157
instruments and the adaptive advantages of playing
methods, and taking Chinese Zither music and its
performance as the intervention medium to provide
adaptive education and teaching theories and
implementation strategies for autistic children. To
improve the musical ability of autistic children, such
as zither playing, Chinese Zither performance
training involves multiple human sensory channels,
which are completed by multiple regions of cerebral
cortex(Huang 2019).These areas participate in
performance in different forms. This multi regional
cooperation can promote the network connection and
all-round development of the brain, promote the
changes of brain structure and function, and obtain
the development of brain plasticity(Pu 2015). At the
same time, Chinese Zither performance training will
also promote the changes of other cognitive functions
of individuals.
EEG signal is the best index to reflect the working
state of human brain, because EEG collects the
electrical signal sent by brain neurons. EEG is closely
related to mental disorders. A large number of studies
show that EEG has abnormal characteristics such as
amplitude, power and left-right asymmetry for
autistic patients, which are different from those of
healthy people(Han 2018). With the continuous
development of EEG signals and the achievements of
mental disorders through EEG analysis, researchers
believe that EEG contains useful information for the
treatment of autism patients.
More and more studies have proved that there are
some differences between EEG signals of ASD
patients and normal EEG signals(Li 2021). At the
same time, with the development of EEG analysis
methods, it has a more solid theoretical basis for the
analysis of EEG signals. It is more direct and effective
to evaluate the effect of intervention treatment in
ASD children based on EEG signals and evaluate
their brain function from the perspective of brain
cell electrophysiological activities.
In this study, Chinese Zither performance training
is used to intervene autistic children, not only through
auditory music perception, but also through the
combination of hearing and movement. After long-
term and systematic Chinese Zither performance
training, autistic children can play complete music
and even participate in Chinese Zither performance
activities, so that they can experience the joy and
sense of achievement brought by zither playing, build
self-confidence, and better integrate into the school
and society. At present, the evaluation methods of
various intervention effects are mainly behavior
observation, scale statistics, parent description and so
on. By collecting EEG signals of autistic children and
analyzing the characteristics of EEG signals from the
perspective of frequency domain and nonlinearity
based on power spectrum and sample entropy, this
study can objectively reflect the impact of Chinese
Zither performance training on the intervention effect
of autistic children, and then make an objective
judgment.
2 METHOD
2.1 Chinese Zither Performance
Training
Chinese Zither is one of the unique and important
national musical instruments in China. It has beautiful
timbre, wide range, rich playing skills and strong
expressiveness (Li 2020). Chinese Zither training is a
complex task, including long-term, large and diverse
skill training. In the field of hearing, ASD children
must learn to focus on distinguishing subtle
differences in pitch, rhythm, volume and timbre, and
learn to distinguish and remember complex auditory
patterns. In the field of sports, they must learn how
to control their arms, hands and fingers. They must
also integrate auditory and motor functions to control
different motor responses. When playing Chinese
Zither, players need to develop asymmetric manual
dexterity, pluck the string with the right hand, play the
melody and master the rhythm, and the left hand
conforms to the tension of the string and controls the
changes of the string sound, so as to adjust the pitch
and improve the melody (Wu 2020). Through such a
complex audio motion conversion, EEG signals have
obvious characteristics in the process of performing
this conversion.
2.2 Power Spectrum
In the frequency domain analysis method of EEG
signals, parameters such as power spectral density
and relative power need to be calculated on the basis
of power spectral quantification (Cheng 2021). When
an abnormal change occurs in a certain part of the
brain, the trend of EEG will change, and its power
spectrum will change accordingly. The power
spectrum calculation of EEG signal overcomes the
subjectivity of traditional naked eye observation of
EEG signal waveform, so that the physiological
information contained in the waveform can be
transmitted with quantitative numbers, and the
accuracy of EEG in disease diagnosis has been
improved (Li 2020). The power spectrum can be
ICHIH 2022 - International Conference on Health Big Data and Intelligent Healthcare
158
obtained by integrating the power spectral density in
the frequency domain.The nonparametric estimation
method of Fourier transform is selected to calculate
the power spectral density function and estimate the
spectrum of time series. The specific steps are as
follows:
The random function x(n) is known, the
autocorrelation function r(k) is estimated, and the
power spectral density function is obtained by Fourier
transform of r(k), which is recorded as P(ω), as shown
in formula (1).
() ()
j
k
k
Prke
ω
ω
+∞
−
=−∞
=
(1)
The classical method is the periodic graph method
for nonparametric spectrum estimation. When the
time series is of finite length, the expectation and
limit values are ignored to obtain the periodic
spectrum estimation, as shown in formula (2).
2
1
1
ˆ
() ()
N
j
k
n
Pxne
N
ω
ω
−
=
=
(2)
Welch is improved on the basis of: segment the
data to make them overlap each other; use a variety
of window functions to add windows. Divide the data
into k segments, each segment is marked as x(n), and
the length is L. The signals of two adjacent segments
overlap each other. Calculate the power spectral
density of each segment and average it, as shown in
formula (3).
1
11
2
() ()
()
10
KL
infn
Pf X dne
in
KLU
in
−
−
=
==
(3)
Where U is the normalization factor, ω(n) is
window function. Hamming window function is
selected in this study. The calculated results of each
section of data are superimposed and averaged, and
the power spectral density is the mean.
The absolute power can be calculated by dividing
the EEG activity of a single frequency band by the
average power of each frequency band. The average
power can be calculated from the power spectral
density of each channel. The absolute power is easily
affected by individual differences and has errors, that
is, the absolute value of the power spectrum has
errors, which affects the objectivity of the final data
conclusion. Therefore, in order to avoid random
errors, this paper selects the feature of relative power.
The relative power calculation method is: the energy
ratio of each frequency band to the whole frequency
band.
2.3 Sample Entropy
Entropy originates from the physical concept and is a
measure of the uncertainty of random variables. The
greater the probability of generating a new model, the
more complex the sequence, and the greater the value
of entropy, which can directly reflect the complexity
of the sample system (Zhao 2019). At the same time,
it can also reflect the distribution of energy in space.
The more chaotic and uneven the energy distribution
is, the smaller the entropy is; the more uniform the
energy distribution, the entropy tends to the
maximum. Sample entropy (SampEn) algorithm is
simple, does not compare with itself, has good
relative consistency, and is more conducive to
predicting the probability of new information (Wang
2013). Construct an m-dimensional vector for a given
time series, as shown in formula (4).
[
]
11
,,, ,
1, 2, 3, , 1
iii im
xxx x
iNm
++−
=
=−+
(4)
Define the maximum distance between two vector
elements as d, as shown in formula (5).
,max ,
0,1, 2, , 1, 1, 2, , 1
x
xxxji
ij ik jk
kmjNm
=−≠
++
=−=−+
,
(5)
Define the threshold r, count the number n less
than the threshold r, calculate the ratio of n to the total
number, and record it as C, as shown in formula (6).
()
{
}
,
1
1, 2, 3, , 1
n
m
Cr
i
Nm
iNm
=
−+
=−+
(6)
Find the average value, as shown in formula (7).
() ()
jk
k
Prke
ω
ω
+∞
−
=−∞
=
(7)
Add 1 to the above dimension to make it a vector
of m+1 dimension, and repeat the above steps(Song
2016). Based on the above, the sample entropy is
defined, as shown in formula (8).
()
()
()
1
,, ln
m
m
Cr
SampEn m r N
Cr
+
=−
(8)
Where m is the embedding dimension and r is the
threshold.
Effect of Chinese Zither Performance Training on Brain Function of Autistic Children
159
3 EEG SIGNAL ACQUISITION
AND PREPROCESSING
3.1 Research Object
In this study, 8 ASD children were selected as
subjects, with an average age of 13 years, no history
of brain injury, no history of epilepsy and no implants
in the body. All of them were diagnosed as autistic
children by the diagnostic certificate issued by the
municipal third class hospital. All parents who
participated in this study fully understood the
experimental process and signed the consent form.
All 8 ASD children received Chinese Zither learning
for a year or so, which had a certain foundation. Due
to COVID-19, the Chinese Zither performance
training lasted for at least 8 months.
When selecting the tested children, the non
probability sampling method of judgment sampling is
used to select the relatively homogeneous and
representative children from the collected autistic
children as the research object, so as to realize the
research purpose of understanding the whole from
part. After the actual sampling, the sample quality
shall be evaluated, and the sample quality,
representativeness and deviation shall be
preliminarily tested and measured to prevent the
experimental results from being affected by the
excessive deviation of the sample.
3.2 Experimental Design and EEG
Acquisition
The selected 8 ASD children were taught Chinese
Zither adaptive music instruction for four months,
fixed for half an hour a week, and taught one-on-one
by professional Chinese Zither teachers. From the
first acquisition of EEG signals, EEG signals are
collected once a month as a training cycle. In each
acquisition process, EEG signals in resting state
before Chinese Zither performance training and in
resting state after Chinese Zither performance
training are collected for 30s, the flow chart is shown
in Figure 1.
Figure 1: Schematic diagram of EEG signal acquisition
process.
EEG signal acquisition uses g.Nautilus high-
precision wireless bioelectric signal acquisition and
analysis system. The motor is placed in the 10/20
system according to the international standard, and
the FPZ(Gun) electrode is used as the reference
electrode. The specific location distribution is shown
in Figure 2. Set the impedance value of each electrode
less than 50 KΩ, the reference electrode less than 10
KΩ, 24bit (1.024mhz internal sampling per channel),
and the sampling rate is 500Hz.
Figure 2: EEG electrode diagram.
3.3 Research Object
16 channels were selected from all 32 channels,
which were located in 4 brain regions: frontal lobe
(AF3, AF4, F3, F4), parietal lobe (C3, C4, CP1, CP2),
temporal lobe (FC5, FC6, T7, T8) and occipital lobe
(PO3, PO4, PO7, PO8). Remove artifacts such as eye
movement, electromyography, ECG, baseline drift
and outliers, filter 50Hz power frequency
interference, and carry out band-pass filtering of 0.5
~ 45.0 Hz.
4 RESULTS AND AANALYSIS
4.1 Based on Power Spectrum Analysis
The collected EEG signals are decomposed to obtain
four frequency bands. The energy ratio of each
frequency band to the whole frequency band is
calculated to obtain the relative power of each
frequency band. Previous studies have confirmed that
the alpha band power spectrum energy of ASD
children in resting state is lower than that of normal
group, and the theta band power spectrum energy is
significantly higher than that of normal children. This
study focuses on the analysis of the relative power of
alpha and theta frequency bands, occipital alpha
frequency band and parietal theta frequency band in
ASD children.
ICHIH 2022 - International Conference on Health Big Data and Intelligent Healthcare
160
In this study, the relative power of 16 channels of
all 8 subjects was averaged to obtain the relative
power of alpha and theta frequency bands of all
subjects, and the relative power of alpha frequency
band of occipital lobe and theta frequency band of
parietal lobe were analyzed. The changes of relative
power of each brain region in alpha band before
training and at rest after each training cycle are shown
in Figure 3 and Figure 4, and the relative power of
theta band is shown in Figure 5 and Figure 6.
Figure 3:Relative power of all subjects before alpha band
training and after each training cycle.
Figure 4: Relative power of single subject before training
and after each training cycle in alpha band of occipital lobe.
As shown in Figure 3 and figure 4, in the alpha
band, the average relative power of all subjects and
the relative power of a single subject are compared
and analyzed. Compared with the EEG signals
collected before and after Chinese Zither
performance training, the relative power of the four
brain regions in the resting state increases to varying
degrees, especially in the occipital lobe, the relative
power of individual channels increases gradually with
the increase of training time.
Figure 5: Relative power of all subjects before theta band
training and after each training cycle.
Figure 6: Relative power of single subject before training
and after each training cycle in theta band of parietal lobe.
As shown in Figure 5 and figure 6, in theta band,
the relative power of most channels of EEG signals in
resting state after Chinese Zither performance
training is lower than that before training, the parietal
effect is significant, and individual channels show a
decreasing trend with the increase of training time.
4.2 Based on Sample Entropy Analysis
Sample entropy mainly reflects the chaotic degree of
the sequence. The greater the chaotic degree, the
greater the entropy and the higher the complexity; on
the contrary, the smaller the entropy, the more regular
the sequence, and the lower the generation rate of new
mode signals (Wu 2020). Previous studies have
confirmed that the sample entropy of EEG signals in
autism is significantly lower than that in healthy
people, and the entropy parameter can be used as a
parameter to analyze the brain function of autism. In
this study, the EEG signals of four brain regions of 8
children were analyzed based on sample entropy. The
sample entropy analysis results are shown in Figure
7.
Effect of Chinese Zither Performance Training on Brain Function of Autistic Children
161
Figure 7: Results of Sample Entropy Analysis.
According to figure 7, the sample entropy of the
four brain regions of ASD children after Chinese
Zither performance training increased in varying
degrees, and some channels showed a gradual upward
trend with the increase of training cycle, while others
fluctuated in varying degrees, but showed an overall
upward trend.
5 CONCLUSIONS
For a long time, because the etiology of autism is not
clear, most of the treatment methods are non-invasive
intervention. In recent years, music therapy has been
accepted by more and more patients and their
families. Based on the power spectrum and sample
entropy, this paper analyzes the resting EEG signals
of ASD children after different cycles of training, and
obtains the following conclusions.
1. The analysis results based on power spectrum
show that although the relative power of alpha band
of ASD children in resting state fluctuates after
receiving zither performance training, it generally
shows an upward trend, and some channels gradually
increase with the increase of training cycle, especially
in occipital lobe. The relative power of theta band
decreases, and some channels have a gradual
downward trend, especially in the top lobe. This
proves that Chinese Zither performance training has
a positive intervention effect on ASD children from
the perspective of EEG frequency domain.
2. The analysis results based on sample entropy
show that after Chinese Zither performance training,
the sample entropy of ASD children in resting state is
higher than that before training. Although there are
fluctuations in individual channels, with the increase
of training time, the sample entropy generally shows
a gradually increasing trend, and its complexity also
gradually increases. This proves that Chinese Zither
performance training plays a positive role in
improving the complexity of ASD children's brain
from the perspective of nonlinearity.
3. Chinese Zither performance training is not only
to let the ASD children who receive training feel
music passively, but to play actively, even play. The
analysis results of EEG signals show that Chinese
Zither performance training can improve the brain
function of the tested children to a certain extent,
which has a positive impact. Therefore, Chinese
Zither performance training can provide a new
direction for the intervention of autism.
ACKNOWLEDGEMENTS
We would like to thank autistic children and their
families for their full support and cooperation in this
study during such a long experimental cycle. Thank
the teachers for providing the experimental site,
experimental equipment and post-processing
technology for this experiment.
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