The experience of designing a single information and educational environment of the university ``NMU Digital''


Educational Technology Quarterly, Vol. 2022, Iss. 1, pp. 73-87 https://doi.org/10.55056/etq.10

The experience of designing a single information and
educational environment of the university “NMU
Digital”
Yuriy L. Kuchyn1, Oleksandr M. Naumenko1, Oleg M. Vlasenko1,
Svitlana H. Lytvynova2, Oleksandr Yu. Burov2, Inna I. Kucherenko1 and
Pavlo V. Mykytenko1

1Bogomolets National Medical University, 13 Taras Shevchenko Blvd., Kyiv, 01601, Ukraine
2Institute for Digitalisation of Education of the Natіonal Academy of Educatіonal Scіences of Ukraіne, 9 M. Berlynskoho
Str., Kyiv, 04060, Ukraine

Abstract. The publication considers theoretical and practical approaches to the design and creation
of a single information and educational environment of the Bogomolets National Medical University.
The main factors that were taken into account in the development of information and educational
environment of the university are identified and substantiated. The basic educational and methodical
resources that ensure the functioning of the information and educational environment of modern
Medical (Pharmaceutical) Higher Educational Establishment (M(P)HEE) are given. The peculiarities of
the educational process at the university are analyzed and the scheme of interaction of the educational-
methodical department with the faculties of the university is given. A model of information and
educational environment of the Bogomolets National Medical University “NMU Digital”. The list of
works related to the educational process performed by the structural units of the university in the
automated control system is highlighted. The main advantages of use and functionality of the automated
control system, electronic document management system and distance learning platform are revealed
and analyzed. The results of an online survey of research and teaching staff and students of different
faculties on determining the level of digital orientation are analyzed.

Keywords: digital transformation, information and educational environment, distance learning, auto-
mated control system

1. Introduction

Today, every governmental institution (health care is no exception) requires qualified profession-
als who have a high level of digital skills and are able to work with new technologies. Digital
transformation (digitalization) of all spheres of public life, including education and science, is

Envelope-Open kuchyn2@gmail.com (Y. L. Kuchyn); naumenko16@ukr.net (O. M. Naumenko); omv13@ukr.net
(O. M. Vlasenko); s.h.lytvynova@gmail.com (S. H. Lytvynova); burov.alexander@gmail.com (O. Yu. Burov);
innanmu2018@gmail.com (I. I. Kucherenko); mikitenko_p@npu.edu.ua (P. V. Mykytenko)
GLOBE http://nmuofficial.com/rektor/ (Y. L. Kuchyn);
https://iitlt.gov.ua/structure/departments/technology/detail.php?ID=49 (S. H. Lytvynova);
https://iitlt.gov.ua/eng/structure/departments/technology/detail.php?ID=281 (O. Yu. Burov)
Orcid 0000-0002-9667-1911 (Y. L. Kuchyn); 0000-0002-9001-7580 (O. M. Naumenko); 0000-0002-0979-851X
(O. M. Vlasenko); 0000-0002-5450-6635 (S. H. Lytvynova); 0000-0003-0733-1120 (O. Yu. Burov); 0000-0002-0734-6544
(I. I. Kucherenko); 0000-0003-1188-4334 (P. V. Mykytenko)

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Educational Technology Quarterly, Vol. 2022, Iss. 1, pp. 73-87 https://doi.org/10.55056/etq.10

an important area of higher education not only because of the pandemic, but also in general
through global trends and national policy [22].

According to the draft of the Concept of digital transformation of education and science for
the period up to 2026 [8], the resolution of the Cabinet of Ministers of January 30, 2019 No. 56
[4] and priority areas and tasks of digital transformation for the period up to 2023 approved
by the Cabinet of Ministers of Ukraine dated February 17, 2021 No. 365-r [5] the existing
system of education and science must undergo radical digital changes and meet global trends
in digital development for the successful realization of each person’s potential. Acquisition of
digital competencies is a basic need of a modern specialist, so the education system (Medical
(Pharmaceutical) Higher Educational Establishment – M(P)HEE) should ensure the formation
of digital competencies of students and research and teaching staff [17], as well as initiate the
introduction of digital infrastructure and electronic services.

The digital transformation of higher medical education is an integral part of the digital society
as a whole, where there is a rapid filling of the world with digital technologies, systems, as well
as with their help to establish communication and data exchange. These processes contribute
to the development of digital competencies of the subjects of the educational process and are
aimed at building an innovative, open and secure digital environment of the university.

Problems of design, implementation and use of an open cloud-oriented educational and
scientific environment of a higher education institution have been the subject of research by
Bezverbnyi and Shyshkina [1], Bykov et al. [3], Glazunova et al. [11], Kolgatin et al. [16], Oleksiuk
and Spirin [23], Oleksiuk et al. [24], Osadcha et al. [25], Spirin et al. [27]. The researches of
Fedorenko et al. [9], Hurzhii, Kartashova and Lapinsky [12], Kartashova et al. [13, 14] are
devoted to the analysis of informatization of general secondary and higher education in Ukraine.
The study of some features of informative terminology is revealed in the publication of Zhaldak
[31]. Morse and Varchenko-Trotsenko [21] considers the design of the model of effective
learning environment of the university using information technology. The research of Spirin
and Vakaliuk [28] is devoted to the definition of criteria and establishment of appropriate
indicators for the selection of open web-based learning technologies, Trius and Sotulenko [30]
talks about problems of creating distance learning support systems for health professionals.
Franchuk [10] analyzes and systematizes the most common web-based computer systems in
higher education. Stuchynska, Belous and Mykytenko [29] consider approaches to the design
and creation of a cloud learning environment for medical students. Marin [19] describes different
practices which attempted to enact a digital university: MOOCs and videoconferencing apps
used for lecturing. Michaeli et al. [20] investigate the digital changes that have taken place
in medical school that are related to the pandemic COVID-19. Rosenman and Swanson [26]
discusses the advantages and disadvantages of using digital platforms and wearables, as well
as the problems of “Digital Health” in Medical School. Maltese [18] offers new methodologies,
data models, authority control mechanisms, and system infrastructures that are able to support
a broader range of services in digital university.

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2. Methods

Purpose of the article is presentation of design experience and general approaches to creating a
single information and educational environment of Bogomolets National Medical University
“NMU Digital”.

Theoretical and empirical methods of scientific research were used to perform the set tasks,
namely:

• method of system analysis, comparison and generalization for theoretical substantiation
and development of information and educational environment of the Bogomolets National
Medical University “NMU Digital”;

• bibliosemantic method – for the study of psychological and pedagogical, scientific litera-
ture, regulations on the design of information and educational environment, the use of
automated control systems and distance learning technologies;

• empirical methods – conversations with students and teachers, analysis of ways to use
learning materials management systems;

• questionnaire – in order to determine the level of digital orientation of students and
research and teaching staff of the university;

• modeling – to develop the information and educational environment of the university
and analyze its functionality.

3. Results and discussion

First of all, it is necessary to consider the essence of the concepts of “digital competence”
and “digitalization of education” to understand the need for the formation of certain skills
in the subjects of the educational process when working in the information and educational
environment. In the Recommendations of the European Parliament and of the Council [7],
digital competence involves the confident, critical and responsible use of, and engagement
with, digital technologies for learning, at work, and for participation in society. It includes
information and data literacy, communication and collaboration, media literacy, digital content
creation (including programming), safety (including digital well-being and competences related
to cybersecurity), intellectual property related questions, problem solving and critical thinking.
Carretero, Vuorikari and Punie [6] defines the digital competence not only as the ability to use
the latest digital technologies, but also as the ability to use these digital technologies in a critical,
collaborative and creative way. In particular, this publication identifies five main structural
components of digital competence, namely:

1) literacy of information operations (viewing, searching, filtering data, information and digital
content; evaluation of data, information and digital content; data, information and digital
content management),

2) communication and cooperation (interaction through digital technologies; sharing of digital
technologies; involvement in active public activities through digital technologies; cooperation
with the help of digital technologies; network etiquette; digital identity management),

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3) creation of digital content (digital content development; integration and processing digital
content; copyright and licenses; programming),

4) security (device protection; protection of personal data and privacy; protection of health and
well-being; protection of the environment),

5) problem solving (solving technical problems; identifying needs; creative use of digital tech-
nologies; defining spaces in numbers competence).

According to Bykov, Spirin and Pinchuk [2], digitalization of education “is a modern stage of
its informatization, which involves saturation of information and educational environment with
electronic-digital devices, tools, systems and electronic communication between them, which
actually allows integrated interaction of virtual and physical, that is, it creates a cyberphysical
educational space”. In turn, the information and educational environment will be understood
as a continuum of spatio-temporal, socio-cultural, activity, communicative, informational and
other factors that appear as conditions for interaction between the developing individual and
the objective world of higher education, which are purposefully created and arise spontaneously.
Obviously, for effective interaction between the user and the information and educational
environment, the subject of the educational process must have established digital competencies.

The results of the analysis of scientific and pedagogical literature allow us to interpret
concept of “informational and educational environment” as a continuum of spatio-temporal,
socio-cultural, activity-oriented, communicative, informational, and other factors that appear as
conditions of interaction between the developing individual and the objective world of higher
education that are purposefully created and arise spontaneously. Kasatkin and Tverezovska
[15] gives another interpretation of this concept, namely as a system-organized set of tools,
information resources, interaction protocols, hardware and software, and organizational and
methodological supports, focused on meeting the educational needs of users. In particular, the
educational environment of M(P)HEI is a necessary component of the holistic mechanism of
professional socialization, life, and professional situations that ensure the entry of students into
professional life.

The results of the analysis of scientific and pedagogical literature allowed to identify the
main factors that were taken into account in the design and creation of information and edu-
cational environment of the university, namely: widespread use in the educational process of
computer-based learning technologies; practical implementation of distance learning technolo-
gies; providing ICT support for research; wide introduction of digital technologies in education
management at different levels; use of cloud technologies; taking into account the features
of different computer technology platforms. In the course of digitalization, it is necessary to
consider such principles as:

• ensuring access to data and knowledge;
• compliance with the system;
• focus on the development of a single information and educational environment;
• organization of communication, partnership and international cooperation;
• ensuring digital security and management priorities.

Analyzing the experience of organizing training with the help of distance technologies
in institutions of higher medical (pharmaceutical) education, it can be stated that important

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educational and informational and methodological resources for the formation of the educational
environment are:

• official portal of the institution of higher education;
• structured media library;
• thematic collection of video, audio materials, printed materials, methodical materials that
provides the maximum visualization of educational, scientific and methodical activity,
satisfies the interests of real and potential consumers of educational services in terms of
the content of educational activities;

• virtual library – an electronic library with educational, educational and methodical,
methodical literature, catalogs of other electronic libraries;

• distance learning courses or their elements as a form of organization and implementation
of educational activities and self-education of students using ICT.

Information and educational environment of the Bogomolets National Medical University is
based on the use of the latest technologies and provides the educational process with electronic
textbooks and teaching aids in relevant disciplines, guidelines for the use of various web services,
resources, and creates conditions for: introduction of pedagogically balanced learning models,
use of cloud and mobile-oriented learning environments, use of various virtual laboratories,
monitoring of academic achievements and disclosure of personal abilities of students.

In figure 1 shows a model of information and educational environment of the Bogomolets
National Medical University “NMU Digital”. First of all, all electronic data of entrants are entered
by the staff of the Admissions Committee into the Unified State Electronic Database on Education
(USEDE) and as soon as the entrant is enrolled in the number of university students, he/she
immediately becomes part of the digital environment. All data of the entrant goes to the ACS,
and thanks to the integration of the ACS with the university distance learning platform LIKAR
NMU, students of our university will have access to video and teaching materials on the YouTube
distance learning channel in the disciplines taught to them this or that semester. Orders on the
movement of the contingent (enrollment, transfer, deduction or academic leave) of students
are formed in the ACS and transferred to the electronic document management environment
(electronic management system – EMS), and from there to the necessary departments.

Let’s consider the features of training at Bogomolets National Medical University, which
are due to the “specific” organization of both the educational process and its structure. These
features include: different duration of initial classes (1, 2, 3 and 5 hours); availability of monodis-
ciplines (the department of a certain faculty teaches the same discipline for students of different
faculties); academic disciplines for students of the faculty are taught by scientific and pedagogical
employees of the departments belonging to other faculties. Analyzing the scheme of interaction
of the educational and methodical department with the faculties of the university (figure 1) it
can be traced that the students of the pharmaceutical faculty have academic disciplines taught
by different departments, which in turn belong to different faculties, for example:

• faculty of training of foreign citizens (disciplines: “Information Technology in Pharmacy”,
“Higher Mathematics and Statistics”, “Latin”);

• medical faculty No. 1 (”Human Anatomy”);
• medical faculty No. 4 (”Hygiene and Ecology”).

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Figure 1: Model of information and educational environment of the Bogomolets National Medical
University “NMU Digital”.

Sometimes one department is taught by several departments, for example, the discipline “Life
Safety, Fundamentals of Bioethics and Biosafety” will be divided between the Department of
Hygiene and Ecology No. 3 of the Medical Faculty No. 4, and the Department of Philosophy,
Bioethics and History of Medicine.

In accordance with figure 2, the logical sequence of interaction is as follows: the educational
and methodical department calculates the pedagogical load and forms the schedule of educational
classes; faculties (dean, deputy dean, methodologists, dispatchers, inspectors) form lists of
student groups, monitor academic performance, make curricula into the automated control
system (ACS), etc. Having received the previously mentioned information from the educational
and methodical department and faculty, the responsible persons from the department assign
teachers in the schedule by groups, publish thematic plans for disciplines (calendar-thematic
plans of lectures, practical and seminar classes, as well as independent work of students)
syllabuses and regulations. classes, final modular controls. In addition, they fill in grade
journals, attend lectures, and fill in information on academic performance.

During the period of adaptive quarantine and digitalization of education it is important to
ensure not only students’ access to educational and methodical material, but also a reliable
communicative component between students, departments, faculties and educational and
methodical department and other structural units of Bogomolets National Medical University,

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Figure 2: Scheme of interaction of the educational and methodical department with the faculties of the
university.

as well as automation of processes related to the placement or completion of information.
Especially important is the support and assistance to research and teaching staff of the university
in organizing the provision of quality educational services.

At present, it is important to install a new ACS module, namely its synchronization with the
ACTION application. In particular, the following documents are available for “sharing”:

• Passport of a citizen of Ukraine in the form of an ID card;
• Biometric passport;
• Registration number of taxes;
• Internally Displaced Persons (IDP) certificate;
• Child’s birth certificate.

In addition to working in the ACS, research and teaching staff carry out organizational and
pedagogical activities on the distance learning platform LIKAR NMU (develop and fill distance
learning courses and YouTube distance learning channel). Three modules are available on
the LIKAR NMU distance learning platform: distance learning; deanery; the organizational
structure (figure 3).

The scientific and pedagogical staff of the university developed almost 2000 video recordings
of lectures and video recommendations for practical and laboratory work, which were uploaded
to the YouTube distance learning channel of Bogomolets National Medical University. The
mantis is placed (figure 4). The channel currently has more than 3,000 subscribers.

In order to optimize the information support and counseling of higher education students,
teachers, course managers and faculty members responsible for educational work, support
chats were created in Viber and Telegram messengers. In addition to the organizational and
control function, the university administration together with the educational and methodical

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Figure 3: Attendance statistics of the LIKAR NMU distance learning platform.

Figure 4: Analytics of views of the YouTube distance learning channel of Bogomolets NMU.

department and the department of computer technology of learning and distance education
provides constant scientific support, updating instructions, publishing methodical materials
and scientific articles placed in the rubric “Distance learning” on the official website of the
university, as well as step-by-step video instructions for teachers were recorded and posted on
the distance learning channel.

With regard to postgraduate education, this includes interns and students of advanced
training or technical improvement courses. In fact, we have former students of our university,
information about which was stored in the ACS and on the platform LIKAR NMU and new users.
Data on graduates is stored on the distance learning platform, and software was developed for
unregistered users, which solved the problem of fast data transfer from the spreadsheet, and
registration of users absent in the ACS (figure 5). This software application is designed for local
use.

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Figure 5: Application window for optimizing user registration without an ACS account.

In addition, a special module on the LIKAR NMU platform has been developed for advanced
training and technical improvement courses, which allows generating certificates confirming
the completion of training courses. These certificates indicate the educational institution, name,
subject of the training course and the date of completion.

An important role in the interaction between structural units is played by the environment of
electronic document management (EMS). Thanks to EMS, the hierarchy of management actions
of the university administration, structural units and faculties is clearly traced and adhered
to. Quite convenient is the fact that the order or order of the university can be immediately
sent to all necessary users for review, signature or review. The head of the structural unit
has the opportunity to review the status of execution of the order and find out whether all
colleagues are performing their duties properly. This is quite convenient, especially when there
is a powerful institution and structural units are located in different parts of the city, you do
not need to spend time and resources on the way to the office building and waiting in line for
signatures under offices, most importantly to have constant access to the Internet.

In the process of designing an information and educational environment of the university, it
was expedient to establish the readiness of the teaching staff and students of different faculties
to use digital technologies in their activities. In order to determine the level of digital orienta-
tion of research and teaching staff and students of Bogomolets National Medical University a
questionnaire was conducted. A total of 939 respondents took part in the survey, of which 87
were faculty, 817 were full-time students and 38 were part-time students (figure 6, 7).

Respondents were asked to rate their own components of digital competence on a 5-point
scale:

• Respondents rated information literacy as follows: 37% – by 5 points, 46% – by 4 points,
14% – by 3 points, 2% – by 2 points, 1% – by 1 point.

• Respondents rated communication and cooperation as follows: 45% – by 5 points, 38% –
by 4 points, 13% – by 3 points, 3% – by 2 points, 1% – by 1 point.

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Figure 6: Distribution of respondents depending on the position / form of education.

Figure 7: Distribution of respondents depending on the faculty.

• Respondents rated the creation of digital content as follows: 25% – by 5 points, 36% – by
4 points, 27% – by 3 points, 8 – by 2 points, 4% – by 1 point.

• Respondents rated data protection as follows: 29% – by 5 points, 33% – by 4 points, 27% –
by 3 points, 7% – by 2 points, 4% – by 1 point.

• The solution of technical problems was assessed by the respondents as follows: 23% – by
5 points, 33% – by 4 points, 30% – by 3 points, 9% – by 2 points, 5% – by 1 point.

As can be seen from the results of the answers to this question, most respondents assess
themselves at a sufficient level of digital competence. It was also suggested to assess one’s own
level of interest in the use of digital tools:

• Work on the global Internet: 65% respondents have a high level, 30% respondents have a
medium level, and 5% respondents have a low level.

• Visualization: 63% respondents have a high level, 34% respondents have a medium level,
and 3% respondents have a low level.

• Ensuring cybersecurity: 45% respondents have a high level, 38% respondents have a
medium level, and 17% respondents have a low level.

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• Scientific communication: 51% respondents have a high level, 40% respondents have a
medium level, and 9% respondents have a low level.

• Electronic documents: 53% respondents have a high level, 38% respondents have a medium
level, and 9% respondents have a low level.

• Mobile devices: 71% respondents have a high level, 24% respondents have a medium level,
and 5% respondents have a low level.

It can be stated that the majority of respondents are interested in using digital tools when
working on the global Internet and with mobile devices, at least in ensuring cybersecurity of
data.

In response to the questionnaire “In your opinion, what are the main requirements to be met
during the digital transformation of education?”, distance learning technologies were identified
in the first place, research learning and blended learning in the second and third, respectively
(figure 8).

Figure 8: Distribution of respondents’ answers to the main requirements should be provided during the
digital transformation of education.

To the question “Do you have the skills to create digital content?” the following answers
were received: 51.9% of respondents have a basic level (I create simple digital content (text,
tables, images, audio files) in at least one format), 39.5% of respondents have a medium level
(I create complex digital content in different formats (for example, text, tables, images, audio
files) and have the skills to create web pages or blogs); 8.6% of respondents have a high level
(I create complex multimedia content in different formats, using a variety of digital tools and
environments, I can create a website).

To the questionnaire question “Do you have the skills to create digital content online in cloud
storage (for example, Google Drive or Dropbox)?” such answers were received, 58.4% indicated
that “yes”, 41.6% – “no”.

To the question “Do you have the skills to use e-mail and messengers (for example, Viber,
Telegram or WhatsApp) in professional activities?” the following answers were received, 97.1% –
said “yes”, 2.9% – “no”.

Having studied the attitude of respondents to the organization of the educational and infor-
mation environment of Bogomolets National Medical University we can note that 44.4% are

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completely satisfied, 37.9% are undecided, and 17.7% are dissatisfied. Analyzing satisfaction with
the quality of information support, the following results were obtained: 44.5% were completely
satisfied, 35.5% were undecided and 20% were dissatisfied.

4. Conclusions and prospects for further research

The designed single information and educational environment “NMU Digital” unites all par-
ticipants of educational and scientific activity, providing space for communication and data
exchange, simplifies and modernizes management processes at the university. The implementa-
tion of the proposed concept aims to ensure: a qualitatively new level and effectiveness of the
university; development of a unified information educational environment of the university;
high level of quality of training and advanced training of students; increasing the efficiency and
effectiveness of research; high level of digital competence of university employees.

The information and educational environment developed at the university consists of many
components. Its organization involves not only the use of modern digital technologies, such
as automated document management system, distance learning platform, automated control
system, YouTube, telegram channel, official website, but also establishing communication
between all structural units of the university, creating conditions for the formation of digital
competence in order to work in the information and educational environment of the university.

Analysis of the results on the level of digital orientation of teaching staff and students of
Bogomolets National Medical University gives grounds to conclude that a significant number of
respondents need to improve their digital competence. Most users have high skills in working
on the Internet and with mobile applications, this applies mainly to students. In our opinion, it
is possible to expand knowledge in other directions by updating the content of computer science
disciplines. As for the teaching staff, web trainings and seminars should increase their digital
competence. Tracking the dynamics of digital competence changing is a prospect for future
research, as the process of creating information and educational environment of the university
is long and is implemented in stages. The results of the conducted sociological research will
contribute to the creation of new opportunities for adjustment, development, and functioning
of the informational and educational environment of the university.

Prospects for further research are aimed at developing proposals for ways to develop digital
competence of students and research and teaching staff of the university. The proposed concept
for the design of information and educational environment of the university needs constant
improvement and in our opinion, the results of sociological research will help create new
opportunities for adjustment, development and functioning of the information and educational
environment of the university.

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	1 Introduction
	2 Methods
	3 Results and discussion
	4 Conclusions and prospects for further research