=Paper=
{{Paper
|id=Vol-2494/paper_33
|storemode=property
|title=Pedagogical Capacity of Multimedia Laboratory of Educational Resources in Specialists Training Within the Conditions of On-Line Learning
|pdfUrl=https://ceur-ws.org/Vol-2494/paper_33.pdf
|volume=Vol-2494
|authors=Telman Vezirov,Arsen Bakmaev,Arif Kasimov,Abutdin Amiraliev
}}
==Pedagogical Capacity of Multimedia Laboratory of Educational Resources in Specialists Training Within the Conditions of On-Line Learning==
https://ceur-ws.org/Vol-2494/paper_33.pdf
Pedagogical Capacity of Multimedia Laboratory of
Educational Resources in Specialists Training Within the
Conditions of On-Line Learning
Telman Vezirov Arsen Bakmaev
Dagestan State Medical University, Dagestan State Pedagogical University,
Makhachkala, Russia, 367000 Makhachkala, Russia, 367000
telman-vezirov@yandex.ru arsen658@inbox.ru
Arif Kasimov Abutdin Amiraliev
Dagestan State Pedagogical University, Dagestan State Pedagogical University,
Makhachkala, Russia, 367000 Makhachkala, Russia, 367000
arifkas@mail.ru abuamiral@mail.ru
Abstract
One of the most important directions of application of information and
communication technologies in education is use of multimedia oppor-
tunities of the computer equipment. Use of multimedia training aids
allows to activate training activity due to gain of visualization and the
combination of logical and figurative methods of assimilation of infor-
mation. Interactivity of multimedia technologies gives ample oppor-
tunities for implementation of the personal oriented training models.
According to the authors, only multimedia electronic educational re-
sources can compete with the teacher as can be carriers of informative
educational interaction from all training aids existing now. The pur-
pose of this article is consideration of capacity of multimedia laboratory
of educational resources in modern process of educational activity and
providing the qualitative educational multimedia content in training
of specialists in the conditions of network training. Multimedia labo-
ratory of educational resources – the prize winner of the Head of the
Republic of Dagestan in the field of implementation of the innovative
technologies in education. On-stage performance groups are made for
implementation of this purpose: the teacher-developer, on which mul-
timedia electronic educational resources, and technicians of laboratory
are developed for development of multimedia electronic educational re-
sources; the programmer-developer; the screen designer, etc., with ac-
curate distinction between tasks and functions of each member of team
are created. Multimedia electronic educational resources are developed
by the principle of the branched computer training program and have
Copyright 2019 for this paper by its authors.
Use permitted under Creative Commons License Attribution 4.0 International (CC BY 4.0).
In: Jože Rugelj, Maria Lapina (eds.): Proceedings of SLET-2019 – International Scientic Conference Innovative Approaches to
the Application of Digital Technologies in Education and Research, Stavropol – Dombay, Russia, 20-23 May 2019, published at
http://ceur-ws.org
� modular structure. The received results of data of pedagogical experi-
ment allow to claim that use of the multimedia electronic educational
resource in training of students is effective as positively influences the
level of assimilation of the training material or on quality of assimila-
tion, significantly increasing its level.
1 Introduction
Due to the mass informatization and large-scale development of information and communicative technologies
in all spheres of activity, education does not stand aside in any way and assumes various innovations. Many
directions of modern education are directly connected with development of information and communication
technologies, the increased volume of educational and scientific content, active interaction of users in a network.
Introduction of information and communication technologies in pedagogical science and practice initiated, in fact,
a new stage of development of didactics of the higher school, is a significant factor of integration of Russia into the
international educational space, is caused by transition of modern society to information stage of development.
The subject of network or electronic training, or still online training, is actual as in the modern world, intro-
duction of computer technologies to educational space affects a condition of an education system and education
in the Russian Federation confident steps leaves from usual to network training. Network training at the moment
is one of the most dynamically developing fields of education what the international and national programs con-
firm. In the advanced researches, electronic training is characterized as the process of formation of knowledge,
abilities, skills at interactive interaction between the teacher and the trained and interactive source of information
resource reflecting all components peculiar to educational process, executed in criteria of realization of means
information and computer technologies [Ponachugin, 16].
Robert I.V., Robert understands the organization of educational activity as electronic training with use of
information which is stored in these bases and used at realization of educational programs and information
technologies providing its processing, technical means, information and telecommunication networks providing
transfer on lines of interrelation of the specified information, interaction of pupils and teachers [13].
Network training is based on ideas of mass cooperation, ideology of the open educational resources, in com-
bination with the network organization of independent interaction of participants which are (trained). Network
training is based on ideas of "horizontal" educational activity and mutual training (i.e. the doctrine and training
in the model "equal to equal") unlike traditional pedagogiy and an andragogy [Nagayeva, 13].
Network training as an organizational phenomenon comprises huge potential. The network form of realization
of educational programs is one of the directions of improvement of quality of education and the academic mobility
at the higher school.
According to many domestic and foreign scientists, network training becomes the highly effective innovative
technology allowing higher education institutions today not only to survive, but also to develop dynamically.
Network training predetermines introduction of new educational technologies, methods and approaches in
teaching and training, new economic mechanisms, and also other institutional and organizational structures that
in total represents unity of technological, economic, pedagogical and organizational innovations. Development
of economic innovations in education is carried out in the conditions of the market relations that allows to
strengthen the competition in the sphere of the provided educational services and educational products among
the educational organizations of various forms of ownership. The used educational technologies in an education
system, in particular in the form of online and offline - training, change nature of teaching activity, thereby making
impact in general on development and transformation of a pedagogical subsystem in which a new educational
environment is created. All these innovations, both technological, and economic and pedagogical, assume also
change of the available organizational structures of the educational organization. In structure of higher education
institution or other educational organizations the centers, departments, virtual schools directed including on
maintenance of model of distance interactive learning are created. The similar model of training by means of the
Internet may contain such forms as webinars, a chat - and web occupations, web conferences, online meetings
and seminars, etc. [Yakovleva, 15].
Many universities have considerable experience of the organization of training at a basis of network programs
which were designated before as "joint programs" and "programs of double diplomas". The hard work on creation
of joint programs was conducted within Bologna Process. The standard and legal basis for implementation of
programs in a network form in the Russian Federation appeared in 2012 after entry into force of the Federal law
No. 273 of Federal Law "Of Education in the Russian Federation". By article 15 of the law it was established
�that the network form of realization of educational programs is understood as the organization of training with
use of resources of several organizations which are carrying out educational activity including foreign, and also
if necessary - with use of resources of other organizations. Such broad treatment which is not limiting the list of
the organizations involved in a network form of realization of educational programs opened to universities new
opportunities. First of all, it concerns the organization of the practice-focused training at a basis of development
of cooperation with the scientific, production and other organizations possessing unique modern resources for
training of specialists. For university science - this cooperation with the leading scientific centers, introduction of
innovations in the content of education, especially at the level of preparation of scientific shots. From positions
of economy of education is the possibility of decrease in costs of updating of financially technical and research
base through collective use of resources.
For students - it is a possibility of acquisition of unique competences, rapprochements of theoretical training
with practice, implementation of practice-concerned projects by orders of employers during training.
Thus, a modern "educational era" with the available information resources and technologies opens not only
before the states, but also before the education system, the educational organizations, teachers and trained
unique opportunities of various level. Along with a traditional education system, network training at a basis
of multimedia technologies, network interaction with a possible entry into "co-learning centers" (the centers of
coeducation) represents innovative approach in an education system.
Submitting the priority project in structure of the State program of the Russian Federation "Development
of education" for 2018-2025. "The modern digital educational environment in the Russian Federation", at
a meeting of presidium of Council at the President of the Russian Federation for strategic development and
priority projects, the prime minister Dmitry Medvedev emphasized that formation of the digital educational
environment is a strategic national objective. Project purpose: to create conditions for system improvement of
quality and expansion of opportunities of continuous education for all categories of citizens due to development
of the Russian digital educational space.
For achievement of this purpose the way of widespread introduction of online training, including, mass open
online courses - the training courses with interactive participation and open access on the Internet is chosen. It
has to lead to the end of 2025 of increase in number of the trained educational organizations which mastered
online courses to 11 million people.
2 Problem Definition
In the modern world an integral part of educational process is active development and use of means of network
training and remote educational technologies where the main component are multimedia electronic educational
resources, in all spheres of professional and pedagogical activity.
Practice showed that positive transformations in society cannot be reached within traditional model of training.
Modern educational technologies give the chance to increase quality of education and more effectively to use school
hours. They are focused on individualization, a distantness and variability of educational process, the academic
mobility of students, irrespective of age and education level.
The multimedia is priority area of information technologies and has great opportunities in education. Among
modern researches there is a significant amount of works in which the priority of use of multimedia technologies
in education is noted (N.V. Apatova, Yu.S. Branovsky, J. Bruner, N. Gardner, G. Deyvis, D. Dzhonassen, Yu.N.
Egorova, V.A. Izvozchikov, S.S. Kravtsov, E.S. Polat, I.V. Robert, N.V. Safonova, S.A. Hristochevsky, etc.) .
The separate directions of process of design of multimedia educational resources (T.G. Vezirov, S.G. Grigoriev,
S.V. Zenkina, O.A. Kozlov, A.V. Osin, I.V. Robert, N.V. Sofronova, V.A. Traynev, S. A. Hristochevsky), a
role of multimedia educational resources in formation of uniform educational space (V.I. Zhog, M.N. Pankin,
S.V. Panyukov), creation of multimedia educational resources for distance learning (M.A. Evdokimov, O. A.
Zakharova, A.V. Petrov, E.S. Polat) are intensively investigated.
Now a large number of various multimedia electronic educational resources which are even more often used
in training is created, significantly increasing quality of educational and scientific activity and which range
considerably extended: from creation of the training programs before development of the complete concept of
creation of educational programs in the field of multimedia, formation of new tutorials. The idea of multimedia
consists in use of various ways of submission of information, inclusion in the software video and a soundtrack
of texts, high-quality graphics and animation allows to make the software product is information saturated and
convenient for perception, to become the powerful didactic tool, thanks to the ability of simultaneous impact on
various channels of perception of information. Prospects of new technology for education were estimated by the
�international community, at the 28th session of General conference of UNESCO within the Education program
the research project "Technologies of Multimedia and Development of the Personality" was founded [Knyazeva,
10].
Multimedia information as the effective instrument of receiving, fixing and application of knowledge allows to
reach quality education that considerably increases interest of students. Multimedia, enriching training process,
involving in process of perception of information the majority sensual a component of trained, is one of the
perspective directions of informatization, mass communication and globalization of education.
The success of use of modern technologies in education depends on the level of the software and methodological
ensuring educational process, and also on a skill level of teaching structure. The modern education system
provides equipment of educational institutions the interactive multimedia equipment and information systems
for active work of the teacher and effective perception of information provided to students.
Use of multimedia in educational process through visualization and interactivity stirs up cognitive activity
of the trainee and develops algorithmic style of thinking. Carrying out occupation with use of multimedia
technical means, allows to consider problematic issues in the interactive mode. Competently picked up multimedia
strengthens attention, positively influencing understanding of content of educational occupation and an emotional
background of occupation. As show the tests spent 72 hours later after an explanation of new material if these
data move in an oral form, the person remembers from them about 10 percent, and in a case with multimedia
this indicator raises to 50 percent [Vezirov, 17].
A number of scientists in the researches showed that use of multimedia means as instrument of activity means
emergence of new forms of cogitative, mnemic, creative activity. Multimedia means have structure, considerably
different from the printing text. Images and sounds create models of recognition and are turned to the sensual
party of the subject. Use of this property, creation of a lesson on the basis of processes of the organization
and interpretation of multimedia information considerably increases the potential of human thinking, causes
certain changes in structure of cogitative activity. The multimedia environment has significant effect on the
main characteristics of thinking: tendency to experimenting, flexibility, connectivity, degree of structure. All
listed characteristics provide the informative processes connected with creative activity and the solution of
problems. Ideas not only of thinking, but also of other mental functions are exposed to revision: perception,
memory, representations, emotions, etc. Before psychologists and scientists-teachers there was already a task of
the conceptual description of development of human activity and mental functions of the person in the conditions
of technologization and use of multimedia means in education [Astvatsaturov, 15].
I.V. Robert in the work [Robert, 94] allocates the basic didactic provisions of use of multimedia educational
technologies: training process individualization; implementation of diagnostics of results of educational activity;
organization of self-checking; computer visualization of educational information; modeling and imitation of the
studied or used objects, processes and the phenomena; use of information databases and ensuring access to
network resources; strengthening of motivation of training; development of a certain type of thinking (for example,
evident and figurative and theoretical).
Certainly, creation of multimedia electronic educational resources demands participation of the experts owning
programs of computer animation 3DMax, Macromedia Flash, etc., computer-aided engineering systems and
drawing of ProtoCad, AutoCad, etc. Training in a format online (network) changes very tectonics of activity of
the teacher, according to his process of interaction and communication with trained.
For the solution of these tasks we realize the "Multimedia Laboratory of Educational Resources" project.
The purpose of our project is development and mass introduction of qualitative multimedia electronic educa-
tional resources in training of specialists since use of multimedia technologies through network training opens new
opportunities in the organization of educational process, energizing of cognitive activity of the trainee through
visualization and interactivity, and also in development of its creative abilities.
3 Development Of A Technique
For realization of this purpose we create temporary on-stage performance groups, presenting it in the model form
which part teachers of disciplines on which multimedia electronic educational resources, (teacher-developer) and
technicians of laboratory are developed for development of multimedia electronic educational resources (the
programmer-developer, the screen designer, etc.), with accurate distinction between tasks and functions of each
member of team (fig. 1) are.
1. Functions of the teacher-developer. The requirement to the teacher participating in development of a
multimedia educational resource have to consist of a set of the traditional professional competences and specific
�questions connected with use of modern ICT in educational process. Thus, a necessary condition of participation
of the teacher in development is computer literacy, knowledge of subject domain, creative approach to work, and
also readiness and desire to use the ICT tools in professional activity. To the teacher-developer, it is necessary
to think over the scenario of realization of interactivity of the developed multimedia educational resource.
2. Function of the programmer-developer can be presented to three stages:
- stage 1: design according to the specification. At this stage the conceptual logic of work of a multimedia
educational resource and mechanisms of data transmission in the client server model according to the received
specification is projected. Then the programmer develops mechanisms of interaction between the client and the
server party, and also flowcharts of algorithms of program modules and charts of interaction of entrance and
output data flows of the designed system. In addition, also the model of protection of the user data against
external hindrances and data protection of the server from possible attempts of the choice of the correct answer
in tests is projected.
- stage 2: realization of a multimedia electronic educational resource. At this stage there is a main part of
a production activity of the programmer including development of design of the interface and its realization by
means of hardware and the software.
- stage 3: post-release works. At the final stage there is a coordination of the done work with the teacher,
amending and changes in a program code and the interface of client part of the program taking into account
remarks of the teacher.
The conducted researches Mayer R.E. and She Hsiao-Ch. demonstrate that the students who are trained with
use of a multimedia electronic educational resource work in the subsequent tests and practical tasks better, than
students who obtained the same information only in words.
Besides, R.E. Mayer and its colleagues made a series of experiments and found out that examinees who received
animation with the simultaneous audio-narration surpassed subjects who received animation with simultaneous
submission of the printing text on the screen [Mayer, 09].
Modern multimedia electronic educational resources well correlate with regularities of training (presenta-
tion, interactivity, consciousness, consistency, problematical character); the didactic principles (orientations of
training, scientific character, sequence and consistency, unity of education, development and education, commu-
nication with real professional problems, high level of difficulty, fast rate of passing of the studied material, the
prevailing value of theoretical knowledge, formation of sensibleness and possession of receptions of the doctrine);
with the principle of creation of necessary conditions for training (availability, consciousness, sensibleness and
effectiveness of education, a combination of various methods acts also tutorials depending on its tasks, contents
and methods of training); with category of forms of the organization of training (collective, group, individual),
etc.
Figure 1: Model of work of multimedia laboratory of educational resources
� In our opinion, from all tutorials existing now only multimedia electronic educational resources can compete
with the teacher as can be carriers of substantial educational interaction.
Achievement of the purpose and the solution of the set pedagogical tasks is possible if multimedia electronic
educational resources is modular architecture and respectively separate electronic educational modules are de-
veloped taking into account the basic and special principles of the general didactics and techniques of teaching
subject matters - standard requirements to the organization of educational process: modularity; structuring of
content of training on separate elements; dynamism; effectiveness and efficiency of knowledge and their sys-
tem; flexibility; conscious prospect; versatility of methodical consultation; equal share; unification; openness and
variability; present; independence; interactivities; appropriateness of age [Vezirov, 18].
In our opinion, multimedia electronic educational resources have to be constructed by the principle of the
branched computer training program. The first - the basic level has to contain the basic concepts, definitions of
a subject and an illustration of these concepts and definitions. Making about a half of a training material and
to contain a detailed statement of all questions of the training program: course subjects. This level, has to give
the finished complete picture of a subject. The second level includes a profound statement of single questions
for that trained which wish to expand the knowledge in the matter.
The multimedia electronic educational resource has modular structure and according to the working program
of discipline is divided into modules (fig. 2).
Logic of creation of a multimedia electronic educational resource on discipline such is that the used elements
are in the following interrelation among themselves: transition to the following element of a course is not possible
without performance of "Criterion of performance" of the previous element.
For example: "PT - Practical tasks" will not be open until trained passes test and depending on that how
many balls will gather moves to an appropriate level (the minimum lowest passing score - 50, "PT-B" - a basic
level 50 - 80, "PT-U" - profound 81 - 100). In turn performance of practical tasks opens a possibility of studying
of the following subject.
The structure of a multimedia electronic educational resource can include the working program of discipline, a
reference media, encyclopedias, references to other educational resources including on the Internet, anthologies,
video lessons and so forth. The working program of discipline is the main standard and methodical document
which determines volume, contents and an order of studying of a training course.
Figure 2: Structure of a multimedia electronic educational resource
�4 Results
For achievement of a goal pedagogical experiment was made. At the initial stage among students of the Dagestan
state medical university and Dagestan state pedagogical university we conducted survey which problem was to
learn the relation of students to use by teachers of multimedia electronic educational resources in educational
process.
According to result of poll of students of 1-3 courses, 93,49% are positive to multimedia electronic educational
resources, 4,65% - have a neutral position in relation to resources of such character, and only 1,86% negatively
perceive them. 72,54% of students consider multimedia educational resources effective as the training material
better is perceived, acquired and occurs saving of time.
The assessment of learning efficiency of students with introduction of an author’s multimedia electronic educa-
tional resource on discipline of "Information scientist" was the main task of the following stage. At this stage for
a learning efficiency assessment the level of assimilation of a training material or quality of assimilation is chosen
as us. For definition of indicators of assimilation during experiment we addressed the assimilation levels offered
V.P. Bespalko who allocates several levels of assimilation at examinees, such as: 1) knowledge acquaintance; 2)
knowledge copy; 3) knowledge ability; 4) knowledge transformation [Bespalko, 89].
During experiment students had to reach the third and fourth levels of assimilation. The test ladder was
offered them (tasks 4-level complexity) that gives rather objective material about the level of knowledge and
allows to apply a rating scale of quantitative characteristics of process of training.
Criteria of exposure of points by results of performance of tasks corresponded to the level of assimilation and
were determined by a twelve-ball scale. For the first level the lower limit made 1; for the second level - 4; for
the third level - 7 and for the fourth level - 10. In case the GPA got by the student appeared below possible
minimum value of this level, we considered that the trainee did not acquire a training material at this level. The
total assessment was defined by a GPA of the highest level which is successfully passed by the student.
It is necessary to draw a conclusion that results of students in experimental group were rather high, than
results of students of control group.
By results of the obtained data it is possible to claim that use of a multimedia electronic educational resource
in training of students is effective as positively influences the level of assimilation of a training material or on
quality of
Figure 3: Indicators of level of assimilation of a training material in control and experimental groups
Success of experimental group is explained the third and fourth levels of assimilation of a training material, in
our opinion, by application in training of students of this group of the author’s multimedia electronic educational
Informatics resource.
� The purpose of teaching discipline to students, is development of profound fundamentals of informatics by them
and modern information technologies, bases of representation of knowledge by means of information technologies,
improvement of skills of work on the computer and use of these skills in practical activities.
Thus, the multimedia electronic educational resource allows students to acquire qualitatively a training mate-
rial on discipline of "Information scientist". Results of intermediate and final assessment of students also testify
to it.
5 Discussion
Results of researches were discussed at departments in each of the specified educational organizations, at the
International and All-Russian scientific and practical conferences.
In 2017 within a grant of the Head of the Republic of Dagestan by results of a competition in the field of
education on support of pedagogical employees of the educational institutions introducing innovative technologies,
the "Multimedia Laboratory of Educational Resources" project became the winner.
The electronic multimedia electronic educational resources developed by us are posted on the website "Mul-
timedia Laboratory of Educational Resources" (www.multilab-edu.ru )
6 Conclusion
The main aspect in a modern education system creation of conditions for independent work of the free access to
various information resources which is trained with granting on the Internet and on various websites and portals
of the country and other higher education institutions, and also introduction of network technologies and in the
higher education institution, at the department is considered.
The website of multimedia laboratory - the information, scientific, educational and communication basis
of modernization of pedagogical activity of higher education institution promoting creation of new model of
education in the conditions of informatization of an education system of society.
Problems of the website of laboratory:
1) to provide timely access to students and teachers to constantly updated information;
3) to concentrate on the website of the reference to the thematic educational websites and portals of other
higher education institutions;
4) to provide to students and teachers access to all multimedia educational resources of laboratory;
5) to create conditions for introduction of innovative technologies of training in pedagogical activity of the
teacher;
6) to provide photographic materials about activity of laboratory;
7) to provide continuous monitoring of scientific and pedagogical activity of department;
8) to conduct the current information and advertizing work.
For teachers the website of laboratory has to become a necessary, vital component of pedagogical activity. It
has to provide, first of all, information exchange between the teacher and the student and to facilitate interaction
between them through providing necessary educational information (educational and methodical materials).
The website on the Internet allows users to obtain quickly from laboratory fresh information constantly 7 days
a week. Using the hypertext, interactivity inherent only in the Internet, it is possible to achieve effective impact
on students.
Within this website in the subsequent it is planned to conduct network interaction with other higher education
institutions.
Consecutive implementation of the "Multimedia Laboratory of Educational Resources" project will promote
formation of the regional innovative system of professional education demanding training of specialists of in-
novative type, having creative thinking, profound knowledge, abilities, skills in a certain subject domain and
in the adjacent areas capable to master high technologies, to develop, introduce and extend new competitive
products and technologies. Formation of the innovative type which is trained in higher education institution can
be successfully realized in a bachelor degree, a specialist programmer and a magistracy.
References
[Shi16] A.N. Shikov, T.G. Vezirov, E.A. Sanina, T.T. Vezirov. The educational space informatization in the
students-ecologists University learning framework: case study of Russia // Ecology, Environment and
Conservation Vol. 22 Dec. 2016 Suppl. Issue; pp. (AS173-AS175) of EM International. ISSN 0971-765X.
�[Pon16] A.V. Ponachugin, O. S. Voroshilova. Network training: Pros and cons / Ponachugin A.V., Voroshilova
O. S. // Young scientist. - 2016. - No. 8. - Page 148-152. - URL: https://moluch.ru/archive/112/28253/
(date of the address: 23.03.2019).
[Lis16] E.A. Lisina, O.O. Smirnova, T.G. Vezirov. Dialectics of systemic transformation of the higher education
system of Russia//Ecology, Environment and Conservation Volume 22, Supplement Issue, Dec. 2016.
[Kos15] E. Kostina, L. Kretova, R. Teleshova, A. Tsepkova, T. Vezirov. Universal Human Values: Cross-Cultural
Comparative Analysis//Procedia Social and Behavior Sciences. Worldwide trends in the development
of education and academic research, 15 - 18 June 2015.
[Ast15] G. O. Astvatsaturov, L.V. Kochegarova. An effective lesson in the multimedia educational environment
(a practical grant). - M.: National book center, IF "September", 2015. - 176 pages.
[Khy10] G.V. Knyazeva. Application of multimedia technologies in educational institutions / Knyazeva G.V. //
the VUIT Bulletin. 2010. No. 16. URL: https://cyberleninka.ru/article/n/primenenie-multimediynyh-
tehnologiy-v-obrazovatelnyh-uchrezhdeniyah (date of the address: 23.03.2019).
[Nag13] I.A. Nagayeva. Network training: formation and Development / Nagayev I.A. prospects. //
Scientific providing system of professional development of shots. 2013. No. 3-4 (16). URL:
https://cyberleninka.ru/article/n/setevoe-obuchenie-stanovlenie-i-perspektivy-razvitiya (date of the
address: 11.03.2019).
[Rob13] I.V. Robert, T.A. Lavin. Explanatory dictionary of a conceptual framework of informatization Educa-
tion / Robert I.V., Lavin T.A. - M.: BINOMIAL. Laboratory of knowledge, 2013. - 71 pages.
[Rob94] I.V. Robert. Modern information technologies in education: didactic problems, prospects of use. M.:
School press, 1994. - 205 pages.
[Yak15] N. A. Yakovleva. Modern educational content of system of continuous education /
Yakovlev of N. A.//Theory and practice of social development. 2015. No. 10. URL:
https://cyberleninka.ru/article/n/sovremennyy-obrazovatelnyy-kontent-sistemy-nepreryvnogo-
obrazovaniya (date of the address: 23.03.2019).
[May09] R.E. Mayer. Multimedia Learning/R.E. Mayer//Cambridge University Press, 2009. - 319 p.
[Kho15] S.Khoroshilova, E.Kostina, L.Bezdenezhnykha, T.Vezirov. Academic Mobility: The Impact of Short-
Term Language Courses Abroad on the Development of Language Competences // Procedia Social and
Behaviard Sciences. Worldwide trends in the development of education and academic research, 15 - 18
June 2015.
[Vez17] T.G. Vezirov, E. Kostina. Educational web-technologies in training bachelors and masters of pedagogical
education//Novosibirsk State Pedagogical University Bulletin. - Novosibirsk, 2017. - Page 3-12.
[Vez14] T.G. Vezirov, R.K. Guseynov, E.N. Sultanov, Yu.V. Sorokopud, R.M. Abdulgalimov. Russian Experi-
ence of the Unesco’s Programs Realizationin the Sphere of Informatization of the Pedagogical Education
// Biosciences Biotechnology Besearch Asia, December 2014, vol. 11 (3), 1631-1638.
[Vez18] T.T. Vezirov. Implementation of the "Multimedia Laboratory of Educational Resources" project as
innovative technology in Higher education institution / Vezirov T.T. // World of science, culture,
education: International scientific magazine. - Barnaul, 2018. No. 6(73). - Page 44-47.
[Vez17] T.T. Vezirov. Multimedia laboratory of educational resources: innovative technologies in Education /
Vezirov T.T. // Scientific and practical magazine "Education Humanization". - Sochi, 2017. No. 6. -
Page 120 - 128.
[Bes89] V.P. Bespalko. The components of educational technology/V.P. Bespalko. - M.: Pedagogy, 1989. - 192
p.
[Pan18] O.Pankratova, A. Ardeev, S. Zenkina, E. Konopko. Model of organization of network project-research
students activities in collaboration with city-forming enterprises (2018) CEUR Workshop Proceedings,
2254, pp. 290-296.
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