The Study of Visualization in the System of Distance Education
during the Pandemic: Psychological and Pedagogical Aspect
T. V. Byundyugova
1a
, O. A. Kholina
2b
and E. G. Petrova
2c
1
Southern University (IMBL), 33a/47, M. Nagibin Ave., Rostov-on-Don, Russia
2
Taganrog Institute named after A. P. Chekhov (branch) of RSEU (RINH), 48, Initiative street, Taganrog, Russia
Keywords: Visualization, Thought Form, Cognitive Construct, Learning, Learning Technologies, Digital Environment.
Abstract: The paper analyzes the current patterns of development of the cognitive sphere, describes the current issues
of the use of modern technologies in education during the pandemic in the digital environment. The results of
the study of the possibilities of using visualization in the training of employees of commercial organizations,
which is based on active interaction and transformation of images, are described. It was revealed that the use
of scribing, infographics, as well as a number of other patterns of the cognitive sphere allowed to significantly
increase the effectiveness of training, motivation and involvement in the process. It was also shown that the
data obtained confirm a number of works on similar topics conducted recently.
1 INTRODUCTION
The current situation in the world, which arose during
the pandemic, has led to a change in key trends in
education, shifting the focus to the online format. In
addition, according to surveys and monitoring
conducted by us since March 2020, many respondents
(students of universities and institutes) noted that
there are certain difficulties in perceiving and
processing all the information received from teachers,
linking this with difficulties adapting to the online
format and increasing anxiety associated with the
pandemic and concern for their health and emotional
state.
All this led to the fact that there was a need to
optimize the education system for the online format:
to diversify the material offered as part of the training,
to break it into small pieces, to do several forms of
tasks within one lesson, so that attention would
switch, the cognitive load on the entire material as a
whole would decrease and its qualitative shift to the
analysis of key materials would occur.
Among the urgent requests of modern systems
(social work, public services from the state, the
educational sphere) that work with information and
a
https://orcid.org/0000-0003-3506-7398
b
https://orcid.org/0000-0002-6195-2369
c
https://orcid.org/0000-0003-3175-6903
broadcast it to the world, including in digital format
(due to the pandemic at the time of the study there
were a number of restrictions), there was a request for
staff training and the development of information
materials in such a format that they are not only easy
to read and perceived, but also their level of
memorability would be significantly higher.
In addition to changing the perception and
processing of information, in general, people's
consciousness is changing, a "digital self" appears,
based on the adoption of cultural norms and values in
a digital, network format, on the perception of their
personality through the prism of social networks,
digital content and the speed of information
dissemination. Current trends and research suggest
that the "digital Self" is increasingly coinciding and
less separated from the "real Self" of a person. The
"digital Self" is currently being formed haphazardly,
the patterns of its development and manifestation
have not yet been revealed, there are no clear ideas
about the specifics of communication and
socialization of a person in the network, their impact
on his psychosocial development.
All this speaks of the necessity and relevance of
analyzing and identifying patterns that will, on the
one hand, determine the features of the formation and
380
Byundyugova, T., Kholina, O. and Petrova, E.
The Study of Visualization in the System of Distance Education during the Pandemic: Psychological and Pedagogical Aspect.
DOI: 10.5220/0011121000003439
In Proceedings of the 2nd International Scientific and Practical Conference "COVID-19: Implementation of the Sustainable Development Goals" (RTCOV 2021), pages 380-385
ISBN: 978-989-758-617-0
Copyright
c
2023 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
development of the "digital self" of the individual,
and on the other, identify the features of interaction
with the "digital Self" at the level of perception and
processing of information from that new world, the
"bifurcated culture" (digital and real) in which the
modern individual lives.
2 METODOLOGY
In modern research, the focus is increasingly shifting
to the development and study of systemic models of
cognitive activity – a complex of active actions that a
person does to obtain and assimilate new knowledge
and important information for him.
Modern information in the digital environment is
nonlinear, therefore, on the one hand, cognitive
processes remain the same and obey the laws of
development in ontogenesis, on the other hand, they
require constant involvement of various sensory,
perceptual and cognitive processes simultaneously or
in some unsystematic order.
There are some features of the cognitive sphere of
a modern adult that can be noted:
theoretical thinking is being used less and less,
being replaced by practical thinking aimed at
solving specific tasks, individual intellectual
operations are turning into a system that is
increasingly focused on one-time goals of a
short time period, abstract reflections are
becoming less and less. Many people still have
a "rectangular logic" that is relevant for
adolescence: there is a desire and motives to
talk about some issues, but at the same time
there are no developed skills to conduct a
discussion, give arguments, and most
importantly - to find them in competent sources
of information, which leads to a lack of logic,
correlation of causes and effects;
the area of interest, on the one hand, is quite
wide, but at the same time it is very superficial,
often without diving into the essence of the
issue. Social, moral, political, psychological
and health issues are becoming more and more
relevant for people. But at the same time, the
"imprinting effect" is increasingly triggered:
what I read first and liked, then it's true, then I
like it;
the level of assessment of one's intellectual
abilities is growing (this is reinforced by the
illusion of the availability of information in the
digital environment), but at the same time the
level of adequacy of this assessment is getting
lower, since modern man equates the existing
ability to "scan diagonally" information on the
Internet to data mining and processing.
Consequently, the level of overestimation of
their intellectual abilities has increased
significantly;
the digital environment (often purposefully)
forms an illusory representation of the ease of
certain aspects of life (a way of making money,
creating a business, buying expensive things on
credit, freelancing), the imagination of a
modern adult easily "completes" certain
aspects, fits itself into this world,
overestimating its strength and cognitive
resources. At the same time, the Internet creates
cognitive distortions: "information is easily
accessible", "press the button and you will get
the answer to all questions", "buy a course and
become a millionaire". All this leads to
subsequent breakdowns, an increase in anxiety
and a decrease in motivation to do something,
and even more so to study;
the development of perceptual processes is also
changing: very often, attention and detailed
perception of an object or situation focuses not
on what is significant for a person, but on what
the Internet, the digital environment offers,
based on their own goals (shopping, developing
consumer or electorate loyalty). The beauty and
attractiveness of images is becoming
increasingly important, rather than their critical
comprehension;
as for mnemic processes, their quality is also
significantly reduced and transformed to meet
the requirements of the modern environment:
either memorization is situational and
involuntary, or turns into attempts to memorize
and mechanically memorize the necessary
information.
the focus of the "use" of imagination is no
longer connected with intellectual activity or
creative processes, but with an attempt to
imagine oneself in an updated "artificial" non-
existent life, the appearance of which is
associated with a low level of the possibility of
satisfying needs, interests, as well as an
externally imposed value system. The
imagination becomes less productive and more
and more reproductive, - processing and
creating attractive pictures from the outside;
the development of speech is also changing: the
use of complex sentences, metaphors, phrases
is used less often, sentences are becoming
shorter and more concise. Written speech is
also impoverished and often the expression of
The Study of Visualization in the System of Distance Education during the Pandemic: Psychological and Pedagogical Aspect
381
thoughts and ideas is replaced by the use of
pictograms (emojis).
attention is becoming "ill-mannered"
(D.Hamilton): it is increasingly difficult to
focus on something for more than 10 minutes,
switchability has become higher, as well as
distractibility. The level of observation and
contemplation has decreased, which is
facilitated by constant stimulation from the
digital environment.
All the patterns described above lead to the
formation of a new individual style of cognitive
activity – a system of individual characteristics of
perception and processing of information, which is
based on individual experience of obtaining and
analyzing data from the surrounding and digital
environment.
Due to the non-linearity of the information
received, it is necessary to take into account the
peculiarities of its processing, analysis, memorization
and evaluation. The model of nonlinear cognitive
presentation of information in a digital environment
is based on the active interaction of a person with
perceived images, and not just their perception and an
attempt to remember. To do this, you need:
reasonably and competently offer applications
and various technologies for use (especially
those related to training), with the opportunity
to test, try them, evaluate their effectiveness for
personal use;
use visual forms not only to provide
information, but also to track all the changes
and progress that have occurred during
training, on the basis of which possible
development trajectories can be predicted;
when using non-linear information delivery, it
is important to take into account the personal
characteristics and values of the student, since
when "scanning" information from the digital
environment, the student's attention focuses on
what matters to him and meets his value
orientations.
The model of nonlinear cognitive presentation of
information in a digital environment is a whole
cluster of structural and functional relationships
between a person who perceives, analyzes, processes
and remembers information, the information itself,
those who broadcast it and the ways (in our case
visualization) of its transmission and explanation.
The transformation of information into thought
forms of the inner picture of the world takes place
according to the following algorithm: "scanning"
information on the web, stopping and focusing on the
necessary and interesting, active interaction with it
(for what it can be useful, how to use it), hypothetical
or real application of it in life, "fitting" into the inner
world of the individual in the format of thought
forms.
Thus, the digital environment becomes a
simulator for the development of a new cognitive
model of perception and processing of information,
which leads to the use of new resources for social
transformation of the individual, including in the
online learning system during the pandemic. The
cognitive sphere gains flexibility, versatility and
allows you to focus more clearly on the main thing
and be less distracted by secondary moments related
to learning. All this is connected, among other things,
with the possibility of using visualization in the
educational process.
Visualization can be considered in several
directions:
a way of presenting information in the form of
diagrams, pictograms, infographics, drawings,
etc. for faster and clearer understanding and
interpretation;
active interaction of the personality and the
mental image, which allows him to maximally
"fit" it into the inner picture of the world,
endow it with value and remember.
Theories of schemes by R.S. Anderson and F.
Bartlett and the theory of frames by C. Folker, M.
Minsky describe visualization in a productive way: as
a way and result of the transformation by a person of
mental images of the inner world into a way of
communication with the outside world due to the
most complete presentation of the data available in
consciousness.
A.A. Verbitsky describes visualization in a
process context: this is a person's ability to "collapse"
the surrounding, including digital, reality to the size
of a mental image, which becomes a schematic
support for subsequent information with a similar
subtext or content. The author divides "conditionally
passive, visual" for perception images that have
already been prepared in advance and "conditionally
active, visual" images that need to be actively worked
out by the individual, and perhaps even created in his
inner world precisely by processing and
comprehending information, endowing it with
meaning and value, which will make it memorable.
Transformation and unfolding of mental images
outside are cognitive projections that are always
embedded in the interaction of the subject and the
environment, including the digital environment, and
can be effectively used in the learning process.
All information perceived from the outside goes
through the process of processing and combining into
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(RTCOV )
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schemes and networks, which gradually become
larger, as well as branch out and allow storing
information and data in the form of enlarged mental
images, which are best amenable to visual translation
into the outside world due to their cognitive
complexity. In addition to all this, visual images, due
to the rapid "folding" and "deployment" of
information, allow it to be analyzed faster, evaluate
the available data and predict the results obtained.
As part of the formation of an individual style of
cognitive activity, a person goes through certain
stages in development: from the indicative stage
based on expressive emotional activity to the stage of
creating semantic images (exclusively mental visual
constructs) - the basis of the internal model of the
external reality in its complex interrelations, semantic
and cognitive integrity. This requires the
development and regular use of visual thinking.
Visual thinking is the analysis and synthesis of
information using visual data series, the ability to
interpret and analyze images. The key ability of visual
thinking is the ability to transform large amounts of
data into a system of easy and understandable thought
forms connected by a single unique meaning.
Thus, the external visual world appears as a
multidimensional cognitive construct that is subject
to processing and interpretation of its individual
images to thought forms that are understandable and
easily fit into the inner world of the individual. Any
thought form is always a combination of visual
thinking, imagination and previous personal
experience.
Visual thinking, among other things, thanks to the
possibility of recognizing and processing
information, allows you to quickly learn and use
information, which increases the cognitive
satisfaction of the individual, her cognitive needs.
Thus, visual information is always more
structured, has the most significant cognitive
potential for evaluating and memorizing data. Mental
images have not only cognitive, but also emotional
potential, allowing you to enter into the inner picture
of the world the data that the individual gives
meaning and remembers. In general, in the modern
environment there has been a shift from a verbal to a
visual picture of the world. The visual picture of the
world is more cognitively easy to perceive, more
capacious and containing many different meanings,
as clear and memorable as possible. Therefore, the
tendency to use various visual forms in work and
training is becoming more and more natural and
permanent, since it provides an opportunity not only
to perceive figurative information, but also to actively
present it, interact with it, transform it in a way that is
understandable to oneself.
The study was conducted on the basis of the
training departments of a number of large companies
in the Rostov region. A total of 214 employees took
part in the study, 100 of whom were randomly
assigned to the control group, and 114 to the
experimental group. All respondents have a higher
education, 67% work in their specialty, the average
age period in the sample is from 32 to 46 years.
The study was conducted in the following order:
at the first stage, the respondents of both groups
were offered questionnaires to assess their
desire to study, their interests and involvement
in learning in principle;
at the second stage, work was carried out with
teachers in the experimental group: they were
told about various forms of visualization of
information so that students wanted to work
with it, use it in professional activities (among
the forms they used were: scribing, intelligence
maps, infographics, sketching);
at the third stage, as part of the planned
training, teachers implemented the proposed
visualization options and a number of other
recommendations, which will be presented
below. In addition, in the middle of the training,
the respondents (experimental group) were
interviewed again for involvement in the
learning process and motivation;
at the fourth stage, all the data obtained were
systematized, the results of training and the
results of the questionnaire were analyzed,
general conclusions were made.
No manipulations were carried out with the
control group, they were interviewed at the same time
as the experimental group for motivation and
involvement, but studied according to the traditional
program.
Training recommendations offered to teachers, in
addition to visualization of educational information:
clearly formulate the purpose of the lesson and
always link it with the practical activities of the
respondents;
use a "content grid": the information in the
classroom should be diverse, contain examples
and stories;
the types of activities in the classroom should
change each other approximately every 20
minutes, it is difficult to keep your attention
longer;
to link educational material with the sphere of
interests of students;
The Study of Visualization in the System of Distance Education during the Pandemic: Psychological and Pedagogical Aspect
383
provide feedback after each module or block of
information, focus as much as possible on the
progress and positive results achieved;
constantly use images and metaphors in the
lecture material that should be emotionally
significant for this category of students.
The entire training program (regardless of the
subject of study) is based on active and purposeful
work with visual data, their mental transformation
and modification in order to consider information in
the framework of training from different sides, taking
into account many aspects that were not initially
noticeable.
All the work on the implementation of a training
system based on visualization lasted 8.5 months.
3 RESULTS
The data obtained for the control group are as follows:
respondents are unenthusiastic about learning
in 69% of cases before the start of training, in
66% in the middle of training and in 68% at the
end;
their motivation level is 4.5 out of 10 points at
the beginning of training, 4.6 – in the middle
and 4.4 - at the end;
their level of engagement is 3.5 out of 10 points
at the beginning of training, 3.3 – in the middle
and 3.6 - at the end.
All data were processed statistically using the
Wilcoxon T-test, no significant differences were
found.
The data obtained for the experimental group are
as follows:
respondents are unenthusiastic about learning
in 71% of cases before the start of training, in
42% in the middle of training and in 25% at the
end;
their motivation level is 3.9 out of 10 points at
the beginning of training, 6.6 – in the middle
and 8.1 - at the end;
their level of involvement is 3.4 out of 10
points at the beginning of training, 7.4 – in the
middle and 9.6 - at the end.
All data were processed statistically using the
Wilcoxon T-test, significant differences were found
in the degree of motivation (Temp>Tcr(0.01)),
involvement (Temp>Tcr(0.01)), level of enthusiasm
(Temp>Tcr (0.01)).
As for the teachers working in the empirical
group, they were interviewed based on the results of
their observation of the group during work. They
noted the following:
in the empirical group, respondents studied
more willingly, helped each other, tried to
immediately apply the data obtained in their
work, often showed creativity in finding
solutions, became more organized and
independent, took the initiative in learning.
They also began to read more professional
literature. During testing, the HR department
noted an increase in their innovation potential
by 14%, some of the respondents began to offer
innovative proposals. The level of self-
organization has also increased;
no such changes were detected in the control
group.
As for the assessment of academic performance
based on the results of training, it has changed in the
experimental group (it has grown significantly), the
number of errors in test papers and tests has decreased
by 64%. No such changes were found in the control
group.
4 DISCUSSION
The data obtained confirm a number of scientific
studies and works on the psychological and
pedagogical aspects of the use of visualization in
teaching within the digital environment, when
learning is implemented in an online format. Heidi
Julien also notes that the development of digital
literacy, skills of working with visual information is
required for the most effective and ethical training of
modern people of different ages (Heidi, 2016).
Gray, Jonathan; Gerlitz, Carolin; Bounegru,
Liliana put emphasis on the fact that the effective data
and information cannot be limited to vospriyatiem
information needed her active processing and
evaluation.
John. McDougall, M. Readman and F. Wilkinson
focus that different visual technology in the digital
environment allow you to develop and enhance the
quality of interaction between students and teachers.
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