International Journal of Interactive Mobile Technologies (iJIM) – eISSN: 1865-7923 – Vol. 15, No. 02, 2021


Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

New Generation Mobile Networks and Their Application 

in Electronic Learning 

https://doi.org/10.3991/ijim.v15i02.18323 

Islam Omirzak () 
L.N. Gumilyov Eurasian National University,  

Nur-Sultan, Kazakhstan 
omirzakis04@rambler.ru / islam.omirzak@gmail.com 

Yuliya Razumova 
Vladivostok State University of Economics and Service,  

Vladivostok, Russia 

Svetlana Nikishina 
Kazan Federal University, Elabuga, Russia 

Abstract—The present article aims at examining the promising capabilities 

of new generation mobile networks for the implementation of first-class online 

education based on advanced immersive technologies. The study describes the 

main functional drivers of the modern end-to-end 5G architecture and proposes 

several options for its application in today’s socio-economic life. In order to 

investigate public opinion toward 21st-century education and identify the 

prioritized requests for university training among potential students, a survey of 

the target audience in the business administration segment was conducted. It 

involved 100 MBA students of the Graduate School of Business of Kazan 

Federal University (Russia) and 200 business workers. After reviewing the 

survey outcomes, it was concluded that the main competitive advantages of an 

educational course are its pace, convenience, and effectiveness in goal 

achievement. The current work presents the analysis of promising educational 

opportunities of 5G for creators of study materials and students, such as the 

extensive use of AR, VR, and robotics; creation and implementation of new 

educational services that support multimodal interaction and are rich in 

multimedia content. Educational opportunities of 5G also include unhindered 

remote interaction between learners; extensive use of AI applications during 

training; provision of high-quality and real-time mobile education; and 

implementation of personalized training systems. 

Keywords—5G technology, Industry 4.0, Digital economy, SMART Education 

1 Introduction 

The global expansion of the network space and the rapid introduction of innovative 

digital solutions into industrial business processes and social life are changing the 

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https://doi.org/10.3991/ijim.v15i02.18323
https://doi.org/10.3991/ijim.v15i02.18323
mailto:omirzakis04@rambler.ru


Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

basic features of the socio-economic interaction. Modern transformational processes 

in the present-day society are accompanied by the penetration and development of 

digital technologies as well as changes in the conditions for the global socio-economic 

system’s functioning [1]. The transformation of society’s mentality and the emer-

gence of innovative communication models give rise to a hyper-contact and mobile 

hybrid environment. This environment is characterized by the interweaving of the 

virtual and real fields of cooperation based on the systemic interaction of digital IT 

developments and algorithms [2]. Technologically, the new digital ecosystem is based 

on discoveries of 4th industrial revolution (Industry 4.0), in particular, on new pro-

duction technologies, big-data analytics, complex algorithms, quantum communica-

tion technologies, virtual, augmented and mixed reality (VR, AR and MR), advanced 

consumer interfaces, cybersecurity technologies, smart sensors, 3D printing, the In-

ternet of Things (IoT), multilevel communication systems, robotics, sensor and geolo-

cation technologies, blockchain and distributed ledger systems, neurotechnologies, 

and artificial intelligence (AI) [3]. 

Due to modernization of the 4G network and the large-scale deployment of 5G 

communication networks, technologies of the fourth industrial revolution are able to 

maximize their potential [4]. The combination of core services will define a 5G satel-

lite network coupled with three basics terrestrial 5G business models: Ultra-reliable 

low-latency communication (URLLC), Massive Internet of Things connections (mI-

oTc), and enhanced Mobile Broadband (eMBB) [5]. 

The global socio-economic system is entering a new era, characterized by break-

throughs in new technologies, the development of artificial intelligence and higher 

data rates, the combination of which is designed to transform almost every aspect of 

everyday life through automation and digitalization. In the long term, 5G networks 

will have an impact on almost all processes of everyday life of society and will be 

considered an essential part of the national infrastructure, providing increased produc-

tivity, efficiency and value of assets in the business segment. The next technological 

revolution will be driven by immersive technologies supported by 5G and artificial 

intelligence, delivering optimized support for the service industry, diversifying traffic 

load and creating variability in end-user communities. AI and 5G mobile technologies 

have great potential for providing innovative products and services not previously 

available [2]. 

Recent research of modern scientific works has provided evidence that Industry 4.0 

is putting significant pressure on education to keep pace with innovations. Digital 

technologies usage in almost all aspects of social life has changed the approach to 

training specialists and actualized the need to introduce modern technological solu-

tions into educational programs. In the new industrial era, 5G is to be an enhancer of 

Industry 4.0 as well as SMART Education (SmE), Smart University (SmU), and 

Smart Campus (SmC) [6]. Distance learning, virtual reality (VR) and robotics capa-

bilities will be enhanced with next-generation networks [7]. Personalization and adap-

tation to user’s needs substantially accelerate the achievement of learning goals, pro-

vide teachers with a wide range of new training tools, and allow defining effective 

learning scenarios. The differentiation of services as well as the network's quality 

improve the learning process due to various information content – diverse videos, 

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

audios, interactive games, etc. 5G provides engineers with many opportunities to 

create new learning solutions that meet the needs of students and educators and make 

learning more enjoyable and effective than ever [8]. 

Technological innovation in education is a source of ongoing debate and contro-

versy between scholars and experts. Nevertheless, most of them agree that technolo-

gy-based educational innovation should not be an end in itself but, rather, a way to 

dramatically improve the educational experience and to better meet the needs of 

teachers and learners [9]. 

Educational institutions have been instrumental in transforming the technology of 

the future by acting as testing laboratories for innovation and striving to move beyond 

the traditional educational approach. Educational institutions have reached a new 

level of quality in the provision of educational services by strategically using the lat-

est technology to prepare students with the necessary knowledge and skills [10]. With 

digital technologies’ development, the shelf life of the modern set of educational 

skills is becoming shorter and thus specialists are required to constantly improve 

knowledge and skills to keep up with Industry 4.0 requirements [11]. In addition, 

professional success, both personal and corporate, in Industry 4.0 is highly dependent 

on a set of educational skills that foster direct human-machine collaboration. In this 

regard, educational institutions are faced with obstacles associated with the creation of 

modern educational conditions [12]. The transformation of educational institutions for 

effective functioning in the global digital realities is impossible without the necessary 

infrastructure: advanced technologies, big data, institutional configurations and quali-

fied experts [13]. The revolutionary technologies of the new digital era are based on 

IoT, AI, VR, genomics, nanotechnology, robotics, fog, frontier, cloud computing and 

other technologies. The fusion of technology in universities is to bring social sciences 

and humanities closer together through knowledge sharing and a shift from a task-

setting approach to a person-centered approach [14]. 

The modern educational trend is mobile learning, which accelerates the exchange 

of knowledge, provides students with the opportunity to access educational resources 

at the moment of need, and provides a smooth, continuous, easy and comfortable 

learning experience. Since the release of touchscreen tablets, the mobile app industry 

has grown rapidly [15]. Mobile devices are popular since the general public has begun 

to view them as an alternative to the graphical user interface (GUI) of computers or 

laptops [16]. Although tablets (iPads) were initially offered primarily to business 

users, they almost instantly became a popular medium for both entertainment and 

learning [17]. Along with advances in mobile engineering, the popularity of smart 

mobile devices and applications in education grows rapidly. Such digital devices offer 

wide access to educational materials [18] and contribute to the cognitive, emotional, 

and social development of students [19]. 

In today's digital realities and the manifestation of global socio-economic process-

es, educational institutions are aimed at developing a continuous learning culture and 

tools that might become a key factor in attracting, developing and optimizing talent. 

There is a need to develop new skills, meet new student expectations, and form learn-

ing goals that are closely related to the business environment. The future employment 

of students in the digital age is an urgent issue for educational institutions, since there 

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

is a demand for a quality workforce, the key criteria of which are digital literacy, 

innovation, developed critical and analytical thinking, high level of emotional intelli-

gence, adaptability and learning, the ability to cooperate and show professional inclu-

sion. The requirements of modern companies for the quality of personnel have also 

changed students’ expectations of educational programs towards individual and 

unique learning experience, easy styles of assimilation of knowledge and the possibil-

ity of their social testing, synergy of educational and work processes, personal control 

over the learning process (in the context and time aspect), mobility and informality. 

This work aims to study the promising capabilities of new generation mobile net-

works in the context of ensuring the implementation of high-quality online education 

based on advanced immersive technologies. 

The research process includes the following steps: 

• Characterizing functional drivers of the new end-to-end (E2E) 5G network archi-

tecture and identifying possible options for its implementation in socio-economic 

life; 

• Determining the prospects of 5G in the new digital era as an enhancer of Industry 

4.0 as well as SMART Education; 

• Conducting a public survey concerning the vision of 21st-century education and 

identifying the priority of students’ requests in business education; 

• Specifying students’ requests for business training in modern realities taking into 

account digital transformations of the socio-economic life; 

• Outlining promising educational opportunities in the 5G technological field for 

creators of study materials and learners. 

This article contains the following sections: introduction that sets up a rationale for 

the study, research design of presented examination, results related to the consumer 

trends and requests in business education, as well as authors’ discussions and conclu-

sions. 

2 Methods and Materials 

In the course of the study, business administration students were surveyed to ana-

lyze their requests for 21st-century education. The examination included 100 MBA 

students from the Kazan Federal University’s Higher School of Business (Russia) 

who study IT, healthcare administration, cultural management, agribusiness admin-

istration, and oil and gas administration. Besides, the investigation involved 200 rep-

resentatives of business in the field of manufacturing, transport services, healthcare, 

financial services, retail, energy, entertainment/media. The research sample constitut-

ed 193 men and 107 women aged from 29 to 45 (Tables 1 and 2). 

 

 

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

Table 1.  Research Sample – Students of Kazan Federal University’s  

Higher School of Business 

Educational program Specialty Number of participants Gender Age 

Master of Business 

Administration (MBA) 

IT 
25 

M – 13 

F – 7 
35-45 

Healthcare administration 
15 

M –10 
F – 10 

35-45 

Cultural management 
21 

M – 7 

F – 5 
35-45 

Agribusiness administration 
19 

M – 9 

F – 10 
35-45 

Oil and gas administration 
20 

M – 15 

F – 14 
35-45 

Total 
100 

M – 54 

F – 46 
35-45 

Table 2.  Research Sample – Representatives of Business Field 

Sphere of activity Number of participants Gender Age 

Manufacturing 33 M – 23/F – 10 29-45 

Transportation services 20 M – 12/F – 8 29-45 

Healthcare 26 M – 15/F – 11 29-45 

Financial services 30 M – 20/F – 10 29-45 

Retail 39 M – 21/F – 11 29-45 

Energy 20 M – 14/F – 6 29-45 

Entertainment/media 32 M – 17/F – 15 29-45 

Total 200 M – 139/F – 61 29-45 

 

All the respondents were offered a questionnaire that included 50 potential requests 

of a modern student (with both conservative and innovative views on education). 

Study participants were asked to evaluate each request’s priority in the context of the 

current realities of doing business and digital transformations of the socio-economic 

life on a 100-point scale. 

The research sample was made up of persons who were actively involved in social 

and production processes and had a Bachelor’s degree in business administration. In 

this regard, the study results presented the dominant demands of only those individu-

als who consider educational services only in the context of developing their profes-

sional business skills and abilities. This research did not include requests for educa-

tion that are typical for students of other educational programs. 

3 Results 

According to the survey outcomes, researchers revealed 20 consumer trends and 

requests in business education, evaluated by the respondents from 75 to 100 points 

(Fig. 1). 

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

 

Fig. 1. Key trends and requests in business education  

(Source: developed by the authors) 

Reviewing the most important requests for education, one can argue that the main 

advantages of an educational course include its convenience, training pace, and effec-

tiveness in goal achievement. In the future, full compliance with these demands will 

become possible through the synthesis of 5G and other digital educational solutions. 

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

Today’s 5G enthusiasm has a lot to do with speed. 4G reaches a maximum speed 

of 100 Mbps and 5G reaches 10 Gbps, which is faster 100 times than 4G. In the edu-

cational context, the increased speed will provide students and teachers with the abil-

ity to achieve a seamless distance learning process. 5G will also accelerate the adop-

tion of VR technology and robotics in education as powerful and useful learning tools. 

5G in business education will satisfy the main students’ educational requests and 

allow universities to implement high-quality mobile learning in real-time. 5G is ex-

pected to accelerate the training process and contribute to the fast achievement of 

educational goals using the capabilities of innovative digital technologies. It will open 

up opportunities for acquiring new knowledge without leaving one’s work and save 

students’ expenses related to the realization of educational goals (transport, accom-

modation, household expenditures). 5G networks are the future of the digital economy 

that are going to cover all areas of the world. By 2035, 5G technology is projected to 

generate $3.6 trillion and support 22.3 million jobs [3]. Key functional drivers of the 

new E2E 5G network architecture and possible options for its implementation in so-

cio-economic interaction are proposed in Fig. 2. 

 

Fig. 2. End-to-End 5G Architecture (Source: developed by authors based on [20]). 

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

In current conditions, Industry 4.0 allows various sectors to increase their competi-

tiveness and contributes to regional economies’ development. Industry 4.0 is based on 

both already established and emerging technologies, including the IoT, AI, advanced 

data analysis, Robotic Process Automation (RPA), cloud computing, VR, AR, 3D 

printing, and drones. Topical issues in the development and standardization of 5G 

technology are the provision of 5G coverage of large areas and the creation of a 5G 

satellite segment during the 2020-2025 time period. It is believed that 5G can create 

numerous advantages for educational and business sectors within the context of In-

dustry 4.0. Given this, Fig. 3 presents the prospects of 5G in Industry 4.0.  

Technological development in the socio-economic environment significantly im-

pacts consumer demand in the business education segment, changing the requirements 

for the provision of services and mandatory educational content. The rapid pace of the 

technological revolution actualizes the demand for training in the format of a real 

production process. Nowadays, students are increasingly paying attention to the con-

nection of the educational course with professional actions, the company’s career 

development strategies, and the ability to convert knowledge into money immediately. 

 

Fig. 3. Prospects of 5G in Industry 4.0 (Source: developed by authors based on [3]) 

Modern universities can benefit from 5G and mobile learning technologies. Learn-

ing using mobile devices is becoming more and more popular as it provides an oppor-

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

tunity to learn at any time in any place. The worldwide mobile education market is 

about to give a notable impetus to economic growth and reach $78.9 billion by 2025, 

owing to the significant growth of its potential (23.7% annually) [21]. 5G automation 

bases on three models of 5G ecosystem: URLLC, eMBB, and mMTC, using the au-

tomation characteristics, intelligent connectivity, collaborative control, and real-time 

data monitoring. These features allow device to device (D2D) communication, ma-

chine to machine communication (M2M), and machine learning (ML) [6]. 

Among the main requests of a modern business student, it is worth highlighting the 

opportunity of distance learning in the world’s best universities with top educators; 

the possibility of professional interaction with potential business partners at the inter-

national level; the ability to study abroad and participate in experience exchange pro-

grams in real-time; the opportunity to combine professional specializations; and the 

formation of professional skills necessary for activity in the digital environment. 

5G network’s core features, its improved bandwidth and security allow designing 

and implementing innovative learning services that have diverse multimedia content, 

multimodal interaction and are customizable for users. Potential possibilities of using 

5G aimed at providing a competitive advantage of an educational product are present-

ed in Fig. 4. 

 

Fig. 4. 5G educational prospects (Source: developed by the authors) 

In such a manner, 5G network is going to extend the capacities of distance learn-

ing, robotics, and VR, thereby affecting almost all spheres of social life and forming 

new requirements for education quality. 

4 Discussion 

Education systems differ around the world. The benefits of 5G will be for the 

whole world, although not at the same time. 5G is going to enable connections at 

lower costs, allowing more and more people to use technology for education. 5G will 

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

also enhance AR technologies usage. In any case, 5G is changing the way of social 

interaction and learning strategies [22]. 

According to research and advisory company Gartner [23], in 2019, 5G has be-

come one of the most commonly referenced technology trends, along with AI and 

digital ecosystems. To a large extend, it can be connected with the need for fast and 

uninterrupted communication during the development of large-scale industrial and 

innovative projects, the introduction of digital twins of enterprises, the Industrial 

Internet of Things (IIoT), emergence of self-driving cars, cloud computing, and other 

breakthrough technologies. 

In February 2020, professional services company Accenture published a study on 

the 5G networks’ future perspectives and challenges in the business sector which 

involved 2623 technology and business decision makers from 12 industrial sectors of 

the USA, Great Britain, Australia, Japan, Italy, France, Germany, Spain, Singapore, 

and the UAE. The study found that 90% of involved recognize 5G as a new oppor-

tunity for their business, 79% think that 5G is to have a great impact on an organiza-

tion, and 57% believe that 5G is going to be far-reaching [24]. 

In the Global 5G Landscape Report, analysts cite 5G as the foundation for Industry 

4.0 and consider the US, South Korea, and China as leaders in the implementation of 

5G networks [25]. The US launched its first commercial 5G network in 2018. To 

accelerate the rollout of fifth-generation communications, the US used a strategy that 

was based on private sector initiatives and already showed its effectiveness during the 

4G implementation. In early 2020, the US authorities, together with US technology 

companies, began to create advanced software for 5G telecommunication networks to 

ensure national security and reduce, if not eliminate, reliance on Huawei equipment 

[26]. South Korea has deployed 5G network second in the world, and now it is to 

become the world leader in 5G spread. Such fast 5G spread resulted from Korea’s 

focus on the telecommunications industry. Thus, in January 2020, 5G networks in 

South Korea covered 81 settlements. China is believed to be the biggest mobile com-

munications market. The country is projected to have the world’s largest 5G infra-

structure by 2025. Already in November 2019, such communications service provid-

ers as China Unicom, China Telecom, and China Mobile have begun offering 5G 

services in 50 cities [27]. China’s Ministry of Industry and Information Technology 

stated that as of March 2020, 198 thousand 5G stations have been built across China, 

involving over 50 million users [28]. 

In March 2020, 5G services have been deployed in 10 countries of the European 

Union and the UK [29]. Now, 5G is of great importance for digital economy and Eu-

ropean society. EU is taking measures to lead global development towards 5G. By the 

end of 2020, it is planned to launch the first commercial 5G networks in 138 Europe-

an cities [30]. 

The introduction of 5G technology in Russia is a matter of state strategic planning. 

The Federal project “Information infrastructure” of the National program “Digital 

Economy of the Russian Federation” is set out to provide sustainable 5G coverage in 

all major cities with a population of over one million by 2024 [31]. Thus, in June 

2019, MTS and Huawei signed an agreement on the development of 5G in Russia 

[32]. In August the same year, Tele2 and Ericsson telecom carriers launched a 5G 

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

pilot zone in the 28 GHz band in non-standalone mode, which allows 5G to be de-

ployed in LTE networks [33]. Furthermore, in September 2019, Skolkovo Institute of 

Science and Technology started the first 5G base station within the test zone, which 

operates in the 4.8-4.99 GHz radio frequencies spectrum in accordance with the per-

mit issued by the State Commission on Radio Frequencies. In September and October 

2019, Tele2 opened an interactive 5G Hub [34] and a 5G cloud gaming service with a 

data transfer rate of over 1 Gbps and a delay of up to 5 m [35]. Recent 5G tests re-

vealed that Huawei Mate 20X smartphones achieved 3 Mbit/s data transmission speed 

[36]. According to the GSMA research company, Russia, being a mature mobile mar-

ket with an unusual mobile penetration rate of 89%, will begin commercial implemen-

tation of 5G in 2020. The forecasts suggest that the total 5G base set will amount to 

46 million by 2025, equivalent to 20% of all base connections [31]. 

The 5G network is actively implemented in Russian educational institutions. For 

example, in September 2019, Saint Petersburg University and MegaFon telecommu-

nications carrier opened the first 5G laboratory in Russia (5G Dream Lab) on the base 

of the Mikhailovskaya Dacha Campus. This laboratory was equipped with a 5G test 

zone to develop new services based on 5G technology. Researchers assume that this 

site will become a unique environment for the self-realization of young talented de-

velopers, testers, and project managers, which will allow them to grow professionally 

and make a contribution to digital world transformation. In 5G Dream Lab, future 

developers can study the distinctive features of fifth-generation communications, 

learn how to work with the latest frameworks and developer tools, and gain skills in 

the fields of the user interface (UI), automatic quality control, and programming solu-

tions. Future managers can learn how to launch and work with high-tech products and 

manage the development process [37]. Therefore, 5G Dream Lab will become a place 

for collaboration between specialists from different fields, including education and 

business [38]. 

5 Conclusion 

This study examined the promising capabilities of 5G network in the context of en-

suring the implementation of high-quality e-learning based on advanced immersive 

technologies. The present research characterized the functional drivers of the new 

E2E 5G network architecture and identified possible options for its application in 

socio-economic life. It was revealed that the large-scale deployment of 5G communi-

cation networks allows one to fully realize innovative technological solutions and 

form the world digital economy infrastructure. In the long term, 5G is to be an en-

hancer of Industry 4.0 as well as SMART Education, enabling rapid ML, as well as 

the realization of M2M and D2D technologies. This paper provided the results of the 

survey aimed at discovering the perspective image of 21st-century education and 

distinguishing the prioritized requests for university business training. The study pro-

cess involved 100 MBA students of the Graduate School of Business of Kazan Feder-

al University (Russia), undergoing their study on IT, healthcare administration, cul-

tural management, agribusiness administration, and oil and gas administration, and 

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

200 representatives of business field connected with manufacturing, transportation 

services, healthcare, financial services, retail, energy, entertainment/media. 

The target audience was offered a questionnaire that included 50 requests of a 

modern learner with both conservative and innovative views on the educational pro-

cess. The survey participants determined each request’s priority in the context of the 

current realities of doing business and digital transformations of Russian socio-

economic life. The analysis of questionnaire results made it possible to identify 20 

consumer trends and requests in education, which were front and center in the con-

temporary business environment. Based on the examination of students’ preferences 

in the educational segment, it was concluded that the dominant competitive ad-

vantages of an educational product are its speed, convenience, and efficiency in goal 

achievement, which may be improved in the future through the synthesis of 5G and 

digital educational technologies. Considering this, the main 5G prospects for educa-

tion include the extensive use of AR, VR, and robotics; creation and implementation 

of new educational services that support multimodal interaction and are rich in multi-

media content. Among other prospects of 5G technologies in education are unhin-

dered remote interaction between learners; extensive use of AI applications during 

training; development of blockchain-based digital e-learning platforms; provision of 

high-quality and real-time mobile education; and implementation of personalized 

training systems. 

The practical value of the article lies in the study of business students’ educational 

needs, which in the long term will make it possible to realize demand and competitive 

educational products in the segment of entrepreneurial activity. 

In the scientific aspect, the article reveals the priority directions of 5G development 

in socio-economic interactions, which is a necessary basis for the generation of inno-

vative technological solutions that meet educational needs. 

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Paper—New Generation Mobile Networks and Their Application in Electronic Learning 

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7 Authors 

Omirzak Islam Amanzholuly is a Master of Pedagogical Science, PhD Candidate 

of the Department of Informatics, L.N. Gumilyov Eurasian National University, Nur-

Sultan, Kazakhstan. omirzakis04@rambler.ru / islam.omirzak@gmail.com  

Razumova Yuliya Viktorovna is a Doctor of Economic Sciences, Associate Pro-

fessor of the Department of Economics and Management, Vladivostok State Universi-

ty of Economics and Service, Vladivostok, Russia. 

Nikishina Svetlana Radanisovna is a PhD of Philological Sciences, Associate 

Professor of the Department of German Philology, Kazan Federal University, Elabu-

ga, Russia. 

Article submitted 2020-09-08. Resubmitted 2020-10-16. Final acceptance 2020-10-16. Final version 

published as submitted by the authors. 

iJIM ‒ Vol. 15, No. 02, 2021 171

https://www.kommersant.ru/doc/3993188
https://www.kommersant.ru/doc/3993188
mailto:omirzakis04@rambler.ru
mailto:islam.omirzak@gmail.com