International Journal of Interactive Mobile Technologies (iJIM) – eISSN: 1865-7923 – Vol. 16, No. 02, 2022


Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

Solving Technological, Pedagogical, and Psychological 
Problems in Mobile Learning

https://doi.org/10.3991/ijim.v16i02.26205

Fadi Sakka1, Alena Gura2(*), Valentina Latysheva3,  
Elena Mamlenkova4, Olga Kolosova5,6

1Department of Business and Quality Management, Hamdan  
Bin Mohammed Smart University, Dubai, UAE

2Department of History, Philosophy and Psychology, Kuban State  
Technological University, Krasnodar, Russian Federation

3 Department of Sociology, Psychology and Social Management, Moscow Aviation Institute  
(National Research University), Moscow, Russian Federation

4Department of Nursing Management and Social Work, Sechenov First Moscow State Medical 
University (Sechenov University), Moscow, Russian Federation

5Department of Marketing, State University of Management, Moscow, Russian Federation
6Department of Sociology and Advertising Communications, Russian State University  

named by A.N. Kosygina (Technology. Design. Art), Moscow, Russian Federation
gurada@kubstu.ru

Abstract—Aim/Purpose: This paper aims to explore the various  problems asso-
ciated with the technological, pedagogical, and psychological aspects of mobile 
learning and develop recommendations for its improvement.  Background: Mobile 
learning becomes increasingly popular today. This type of learning is relatively 
new. It has recently gained popularity due to the pandemic restrictions in 2020. 
As mobile learning is being actively used, educators,  students, and other profes-
sionals begin to note its positive and negative sides.  Methodology: The study is 
based on the method of experiment as well as an online 11-item questionnaire 
was conducted (developed by authors) with 110 teachers in  Russian universi-
ties (Russian State University named by A.N. Kosygina, I.M. Sechenov First 
Moscow State Medical University, and Kuban State  Technological University). 
Contribution: The practical significance and prospects for further research are 
based on the possibility of using the results in further study of the problem of 
the impact of mobile applications on specific indicators. Findings: It was found 
that, given the great prevalence of mobile devices today, there is every reason 
to implement mobile learning at universities. However, there are infrastructural 
problems that prevent the widespread use of this mode of delivery (problems 
with the Internet, old gadgets that do not support 4G, lack of technical support, 
etc.). Teachers also mention a set of problems associated with the quality of such 
training, which are mainly related to pedagogical and psychological aspects of 
the process. About 56% of university teachers say that students often behave 
irresponsibly during online classes. They are inattentive, tend to skip lessons, 
and do not hand in the tasks, which leads to a decline of knowledge and failing at 
tests and exams. Around 68% of teachers have difficulties adapting their teaching 
methods to a mobile learning  environment.  Recommendations for Practitioners 

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

and Researchers: This study proposes  structured recommendations to improve 
the quality of mobile learning by advancing technology skills, adapting mobile 
learning to the needs of universities, and raising the motivation of teachers and 
students. Impact on Society: The results of the study can be used to analyze and 
compare the impact of mobile learning on society, efficiency in various fields, 
as well as mobile learning of students on future employment and life in soci-
ety. Future Research: In the future it will be important to conduct a comparative 
analysis of the impact of mobile learning on students and teachers, to study the 
effectiveness of such learning in general.

Keywords—mobile learning, online learning, psychological and pedagogical 
barriers, psychology of mobile education, technology

1 Introduction

In today’s fast changing world, the development of digital technologies have altered 
all spheres of human life. This process likewise affected education. One of the trends in 
modern pedagogy is mobile learning, which offers enormous opportunities to improve 
the process and efficiency of learning, but at the same time brings many problems that 
must be solved [1]. These problems can be divided into three groups: technological, 
pedagogical, and psychological. The significance and relevance of mobile learning is 
not disputed during a pandemic, when there is a need to use distance learning technol-
ogies and use a variety of programs and online platforms to conduct it. Therefore, the 
study of the impact of mobile learning on the perception of educational material by 
students is relevant.

Mobile learning is a strategy that provides 21st-century children and students with 
learning opportunities, such as a wide range of portable electronic devices [2]. These 
devices are connected through a smart classroom network or the Internet to smart com-
ponents or interactive learning materials and resources. With the help of electronic 
devices, students are linked to a collaborative, interactive, and innovative learning 
environment that is controlled by the teacher (instructor) with the help of a Learning 
Management System (LMS) or Social Online Learning (SOL) tools [3]. Mobile learn-
ing can also be used for complementary learning and self-education.

Today, many educators, students, and their parents hold preconceived notions about 
mobile learning [4]. Their lack of intention to incorporate it into the classroom is a 
barrier to the implementation of digital technologies in pedagogy. One possible expla-
nation for why teachers do not integrate their technical knowledge into course design 
and teaching is their attitude towards using technology. A lot of it depends on the accep-
tance of technologies [5]. There can be many reasons for the lack of acceptance, such 
as shortage of time and skills, a rigorous curriculum, poor technical infrastructure in 
higher education institutions, etc. Some university teachers also mention the low learn-
ing effectiveness of mobile learning courses.

The main contribution of the proposed research is to identify the challenges and 
problems of the implementation of mobile forms of education in university curriculum 

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

and to propose a specific mobile learning integration framework designed to guide 
teachers in solving the problems that were identified in the work.

This study goal is to analyze the current situation with mobile learning in Russian 
universities. The focus is on technological, pedagogical, and psychological aspects 
of the problem. In addition, the paper provides recommendations for the universities, 
teachers and students to improve the situation.

1.1 Literature review

During the pandemic, online learning and distance learning became relevant [6]. 
There is a need to use modern technologies, including mobile learning and mobile 
applications [7]. This format of learning affects the learning process in general, and 
students and teachers in particular. Today, IT technologies are entering virtually every 
aspect of human life. Digital technology has changed the very notion of what it means 
to be human [8]. In the analysis of the literature by research and systematic criteria, 
emphasis is placed on three aspects—technological, pedagogical and psychological, so 
scientific sources relate to modern technology, pedagogy and psychology, as required 
by the topic of the article.

Mobile learning refers to using mobile devices such as smartphones, tablets, etc., 
which help to mediate the education process. In some cases, institutions provide 
 students with such devices, and sometimes they use their own. Mobile devices allow 
teachers and students to learn anywhere and anytime [9]. The features of mobile learn-
ing are the ability to combine learning with daily activities, affordable price, and high 
quality of education, which can be achieved under certain conditions [10].

Today almost every person in the world has a mobile device. For example, 99% 
of students in Oman have a phone or a tablet. Al-Emran and Salloum [11] reported 
 sex-based differences in attitudes towards mobile devices among students: male stu-
dents used mobile devices more. At the same time factors such as age, education and 
faculty were not significant.

Learning through mobile devices (1) affects the process and products of learning 
by interacting with other psychological constructs; (2) provides new opportunities to 
directly influence the learning process or its outcomes; and (3) provides opportunities 
to collect previously unavailable data that improve understanding and modeling of the 
learning process [12].

Bernacki et al. [13] studied how mobile devices and new data channels allowed 
scholars to look at education and its psychological component in a new way.

Two pedagogical and research directions have emerged:

1)  The first one is seamless learning in which students can learn whenever they want 
using a device as mediator to help them interact with varying input from digital 
media, peers, instructors, and experts.

2) The second one is context-aware ubiquitous learning in which learners explore real-
world phenomena in situ and use mobile devices to support immediate learning [13].

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

Several barriers prevent the adoption of mobile learning. To incorporate mobile 
learning into the learning process, the following challenges must be understood and 
addressed: administrative, design, technical, assessment, cultural, and social. Other 
 factors, such as resistance to change, social and cultural influences are also important 
in mobile learning [14].

Some researchers have obtained interesting results regarding the use of mobile 
learning in education. One article showed that learning materials and tools are effec-
tive when designed in a specific way. For example, mobile apps should meet students’ 
needs, and teachers should continuously support them to achieve positive learning out-
comes [15].

Some countries (e.g., Iraq) struggle with paying for the costs of mobile learning 
(gadgets, Internet). The study found that the quality of e-service on online meeting 
platforms directly affected perceived value and satisfaction but had no direct effect 
on willingness to pay. Nevertheless, the perceived value is among the prerequisites of 
satisfaction [16].

Mobile learning offers several innovative tools to improve the quality of learning. 
Quantitative data analysis showed that teachers positively evaluated the pedagogi-
cal use of interactive spherical video-based virtual reality (ISVVR). In addition, the 
Chinese researchers found that participants’ concerns about adopting the ISVVR had 
already moved beyond an estimated acceptance level and were mostly concerned with 
integration issues. It is suggested that further teacher professional development efforts 
are needed to develop and improve the use of ISVVR in practice [17]. According to 
many authors, mobile technology can promote innovative teaching, communication 
and problem-solving skills, and critical thinking skills [18]. An open question for the 
studying remains the assessment of the challenges and difficulties in the implementa-
tion of mobile technologies, both on the part of students and on the part of teachers.

The proposed study is designed to partially close the gap in the time-varying assess-
ment of the problems and challenges associated with the introduction of elements or 
full-fledged mobile learning from the point of view of the educators.

Overall, mobile learning is taking a leap forward. Nevertheless, there are still tech-
nological, pedagogical, and psychological issues associated with mobile learning 
environments.

1.2 Problem statement

Today the popularity of mobile learning grows rapidly. At the same time, the topic 
raises many questions. Since mobile learning is new and there is little experience of its 
implementation, both teachers and students are constantly faced with problems of var-
ious nature (e.g., technological, pedagogical, and psychological). All of these aspects 
need to be studied to improve the effectiveness of learning. This study focuses on inves-
tigating the technological, pedagogical, and psychological problems of mobile learning 
in universities and developing recommendations to overcome those. The objectives 
of this study include examining the quality and effectiveness of mobile learning in 
Russian universities, collecting and analyzing the teacher opinions, identifying the 
most common problems, and offering solutions.

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

2 Methodology

2.1 Research design and sample

The study is based on the method of experiment as well as an online question-
naire was conducted. Many researchers, for example, Al-Emran and Salloum [11], 
choose this approach to study mobile technologies in education. This type of method 
makes it possible to realize the purpose and objectives of the study, as it allows us to 
explore the impact of mobile learning on students and teachers, based on which we 
can explore solutions to technological, pedagogical and psychological problems caused 
by mobile learning. The questionnaire was distributed among 110 teachers in Russian 
State University named by A.N. Kosygina, I.M. Sechenov First Moscow State Medical 
University, and Kuban State Technological University. The participants were 28–53 
years old and had work experience ranging from 1 to 25 years. The survey participants 
were selected within the limits of the described limitations by the method of random 
sampling.

2.2 Survey

The teaching staff was informed about the survey via printed invitations, which were 
distributed in advance. The questionnaire was prepared using Google Docs. It was sent 
to participants via email on July 1, 2021. The respondents were instructed to send the 
filled forms by July 5, 2021. All willing teachers from the selected universities were 
able to take part in the survey.

The questionnaire had 10 close-ended questions and one open-ended question (11):

1. Do you use mobile devices with Internet access (smartphone, tablet, etc.)? (Yes/No)
2. Do you incorporate mobile learning into your work? (Yes/No)
3. Do you consider yourself skilled enough to use mobile devices for teaching 

purposes? (Yes/No)
4. Does your university have enough technical support for mobile learning? (Yes/No)
5. Does mobile learning allow you to use your usual pedagogical methods? (Yes/No)
6. Does mobile learning allow you to expand your teaching repertoire (Yes/No)
7. Have you noticed any deterioration in student performance after introducing 

mobile learning? (Yes/No)
8. Have you noticed any improvement in student performance after using mobile 

learning? (Yes/No)
9. Does mobile learning provide students with a better environment to learn infor-

mation? (Yes/No)
10. Do you think students improve intelligence and critical thinking when engaged in 

mobile learning? (Yes/No)
11. Please share your views on the use of mobile learning approaches at your university. 

Comment on your answers to the above questions (if applicable).

The construct validity of the proposed questionnaire was verified using the study of 
Alpha Cronbach, where the arithmetic means of the answers to each of the  questions 

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

were used as data. The answers were coded as: “Yes” = 1, “No” = 0. Cronbach’s 
calculated alpha a = .709, which indicates an acceptable level of construct validity of 
the questionnaire. The reliability of the test results was checked using the test-retest 
method by repeating the survey with the same participants after 2 months and compar-
ing the results obtained coded in the described way using Pearson’s direct correlation. 
The found correlation reached .077, which indicates a sufficient minimum reliability 
of this survey.

2.3 Data analysis and statistical processing

Completed questionnaires were analyzed by descriptive statistics method, including 
with the help of statistical software SPSS 22.0. Descriptive statistics was chosen as the 
best way to initially collect information about the problem under study from the point 
of view of the respondents. It allows you to form a factual basis for further structured 
quantitative research with the isolation of research variables.

2.4 Ethical issues

Before completing the questionnaire, participants had to read and give their consent 
to the terms and purpose of the study. They were also informed about the details of the 
study at the time of the invitation.

3 Results and discussion 

1. Do you use mobile devices with Internet access (smartphone, tablet, etc.)? (Yes/No)

All teachers who participated in the study have mobile devices, which means 
they can use them for various purposes, including education. This suggests an opti-
mistic outlook on the possibility of introducing mobile learning in universities.

2. Do you incorporate mobile learning into your work? (Yes/No)

Most teachers (81 people) said they have already incorporated mobile learning in 
their classes, while 29 respondents disagreed. Presumably, one of the factors driv-
ing this process was the COVID-19 pandemic, which began in 2020 and stimulated 
distance learning. 

3. Do you consider yourself skilled enough to use mobile devices for teaching pur-
poses? (Yes/No)

Fifty-nine teachers answered ‘yes’ to this question and 51 said ‘no’. It means 
that 46% of respondents have some kind of difficulty using mobile learning due to 
a lack of appropriate skills. This problem could be solved with additional courses 
and through experience exchange with other teachers.

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

4. Does your university have enough technical support for mobile learning? (Yes/No)

Less than half of the respondents (n = 38) gave a positive answer. This result 
shows that universities in the Russian Federation still have insufficient technologi-
cal support, which can be an obstacle for mobile learning. The obvious solutions to 
this problem are to provide technical support to general-use classrooms and to hire 
technical specialists. The officials should consider allocating budgets to support the 
mobile learning infrastructure of universities.

5. Does mobile learning allow you to use your usual pedagogical methods? (Yes/No)

Thirty-five people agreed that mobile learning allowed them to use their usual 
teaching methods, while 75 people answered ‘no’. The high rate of negative 
answers suggests that it is quite difficult for respondents to adapt their pedagogical 
methods to mobile learning. To solve the problem, teachers need to work on adapt-
ing their pedagogical methods to the conditions of mobile learning. For example, 
students can be surveyed using special programs or Google Docs; new material can 
be explained with screen sharing, etc.

6. Does mobile learning allow you to expand your teaching repertoire? (Yes/No)

Most of the respondents (73 people) answered positively, while 37 participants 
answered ‘no’. Despite the challenges educators face when deploying mobile learn-
ing, 66% of teachers think it is a promising innovation and intend to use it. This is 
a good sign because teacher’s intention to use of mobile devices in a classroom is 
one of the primary drivers for the adoption of mobile learning.

7. Have you noticed any deterioration in student performance after using mobile learn-
ing? (Yes/No)

62 people said ‘yes’ to this question and 48 people answered ‘no’. This shows 
that, at this point, mobile education is less effective compared to the traditional 
learning. One explanation could be that both teachers and students are unfamil-
iar with this form of education. A gradual shift to blended learning (traditional + 
distance learning) and measures aimed at raising student motivation can improve 
mobile learners’ performance. 

8. Have you noticed any improvement in student performance after using mobile 
learning? (Yes/No)

Less than half of the participants (n = 43) answered ‘yes’ to this question, while 
most of the respondents (n = 67) answered ‘no’. Despite the results in the previ-
ous question, 39% of teachers still believe that student performance improves with 
mobile learning. The improved performance suggests that the effectiveness depends 
not only on the teaching, but also on the personality and psychological characteris-
tics of students, their interest, intention, and motivation. This aspect should also be 
considered when introducing mobile learning.

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

9. Does mobile learning provide a better environment for students to learn 
 information? (Yes/No)

More than half of the teachers (n = 57) believe that mobile learning offers a 
variety of opportunities to improve student retention and comprehension of infor-
mation. A likely explanation is that visual memory is triggered due to the improved 
visibility of the content.

10. Do you think students improve intelligence and critical thinking when engaged in 
mobile learning? (Yes/No)

Sixty-eight teachers think that mobile learning does not improve student’s 
intelligence and critical thinking. Such a result could be explained by a reported 
decline of knowledge during the period of distance learning in the pandemic. 
Various factors (pedagogical, technological, psychological, etc.) could be at play 
here. Both teachers and students should strive to improve their performance, and 
efforts should focus on increasing the motivation of both parties (the frequency of 
answers to questions 1–10 is depicted in Figure 1).

Fig. 1. The teacher survey results, %

11. Please share your views on the use mobile learning approaches at your university. 
Comment on your answers to the above questions (if applicable).

Teacher Quotes:
Respondent 1: Mobile learning has become most prominent in the second semester 

of 2020. Because students had to be taught remotely, instructors began to use Zoom, 
Skype, etc. to conduct classes. In the beginning, there were many problems (e.g., Inter-
net speed, inability to join the session). After a few weeks, the process became more 
streamlined, but there were still problems.

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

Respondent 2: There are difficulties in communicating with students. It is difficult 
to control how well students learned the material, whether they did homework, what is 
their current level of knowledge. With full-time education, the process of communica-
tion is more effective.

Respondent 3: Not all students take online classes responsibly. Not everyone can 
work independently. There is a lack of motivation and control. Students say the mate-
rial is better remembered during a live lecture than when a lecturer is sitting behind the 
screen.

Respondent 4: Mobile education provides an opportunity to introduce new 
approaches to learning, but it is not easy. Different factors come into play (technologi-
cal, psychological). Not suitable for all disciplines. Mobile learning demonstrates good 
results, for example, in learning foreign languages, but for mathematics, chemistry, 
etc., it is poorly suited.

Respondent 5: Interpersonal communication is reduced to zero. You have to rely 
only on the personal responsibility of students.

Responses to question 11 show that the opinion of teachers about mobile learning 
is mixed, although negative views slightly prevail. Some see the benefits of a blended 
learning approach, but many teachers do not approve the full transition to mobile 
learning. 

The study was aimed at examining the current state of mobile learning from the tech-
nological, pedagogical, and psychological perspectives. The results show an ambiguous 
attitude to mobile learning in the Russian Federation. Many teachers are not ready to 
switch to this mode of teaching or experience some difficulties in this regard. The atti-
tude to mobile learning and the level of technophobia varies from country to country. 
The main problem in developing countries is the lack of infrastructure [19].

Researchers highlight several psychological aspects of the transition to mobile learn-
ing. Teachers, first of all, need to improve their IT skills. Students usually lack a respon-
sible attitude and the ability to work independently. Trends in the acceptance of mobile 
learning by teachers are as follows: 

1) more experienced teachers tend to struggle more with the adoption of mobile 
learning;

2) less experienced teachers tend to be familiar with this technology and willingly 
accept it; 

3) teachers who prefer mobile learning are familiar with this technology and engage in 
active professional development (including online); 

4)  teachers who are aware of the importance of external influences tend to be more 
positive about online learning and prefer to go digital [9].

The psychological characteristics of the students also influence learning effective-
ness (see Figure 2). Students with a strong intention to try new technologies (higher 
personal innovativeness) and those who actively engage in learning and rely on infor-
mation from others for problem-solving (accommodating learning style) are more 
likely to use mobile learning in informal contexts. In contrast, those learners who rely 
on one’s own analysis and reflection (assimilative learning style) are more likely to use 
formal platforms for mobile learning [20].

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

Fig. 2. A 5-axis mobile learning integration framework
Source: Developed by the authors based on data from Zidoun et al. [18]

For many students, mobile learning is an effective alternative to traditional learning. 
Some authors report positive effects of mobile learning. For example, using mobile 
technology in medical education results in students (1) enhancing their clinical compe-
tence and confidence, (2) gaining and deepening theoretical knowledge, and forming 
(3) positive attitudes to and perceptions about mobile learning [21].

3.1 Case studies

In contrast to teachers, students often feel positive about mobile learning. Research-
ers in Malaysia were given good feedback from students who participated in mobile 
learning. Students were happy to use it and felt supported and motivated while using 
the mobile learning app [22].

According to researchers from South Africa, most students used their tablets for 
lecture notes (women tended to do so more than men did). Some problems with mobile 
learning were poor on- and off-campus Wi-Fi connections; some students did not like 
the idea of using mobile devices and preferred traditional learning methods [23].

In mobile learning, it is important to choose the right teaching method. Teach-
ers’ experience shows that case technology is a preferred method in mobile learning. 
Project-oriented learning shows poorer results. Agila-Palacios et al. [24] analyzed ‘two 
active methods for the development of digital competencies using mobile devices. 
The  first  method  was  project-oriented  learning  (POL),  while  the  second  was  case-
based learning (CBL). The results showed that students who were taught according to 
POL improved their competencies by 7%. Those students who were engaged in CBL 
improved all four competencies, such as interaction (+8%), information sharing (+6%), 
collaboration (+4%), and netiquette (+4%).

Language learning with mobile technology has become very popular in Turkey and 
in most developing countries. Mobile-Assisted Language Learning (MALL) is derived 
from Computer-Assisted Language Learning (CALL) and mobile learning. Both 
types of learning focus on contextual learning, flexibility, and active participation in 

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

the  community activities. MALL uses key mobile technologies for language learning, 
such as pocket electronic dictionaries, handheld personal computers, cell phones, MP3 
players, and tablets [25]. Compared to all the analyzed studies, common to ours is the 
fact of the impact of mobile learning on the effectiveness of the educational process and 
indicators of motivation and academic success of students.

Mobile learning promotes better recall of information. Researchers in the United 
States have found that repetitive retrieval (extraction) of information is superior to 
mechanical methods of learning. Retrieval and repeated retrieval practices are thought 
to reinforce retrieval pathways so that data can be more easily retrieved later [26]. 

In a study by Sattarov et al. [27], many participants said that mobile learning should 
be combined with traditional methods because it offers many features that cannot 
be implemented in a conventional classroom setting. According to Uzbek research-
ers, using mobile technology to support the traditional learning process (both in the 
classroom and during homework) to improve the quality of learning has the following 
advantages:

•	 having an additional channel of student-teacher interaction;
•	 the ability to present a wider range of educational material and improve visibility;
•	 the possibility of using a game form of learning;
•	 increased visibility and interactivity;
•	 the possibility of organizing repetition of the training material;
•	 the opportunity to organize students’ independent work using mobile devices.

According to scientists from Ecuador and Spain, the use of mobile technology puts a 
student at the center of the learning process. This makes the teacher a mediator between 
content and knowledge [28].

Mobile learning has been introduced into classrooms just recently, and people have 
different attitudes towards it. Engaging students to learn in this way and participate in 
the educational process leads to the acceptance of mobile learning in general [29].

Some authors offer a series of recommendations for implementing and improv-
ing the quality of mobile education. The advice aims to help (1) switch from using 
mobile devices as data sources to mobile-assisted collaborative learning, (2) design a 
comprehensive training program for teachers to incorporate mobile learning into the 
classroom; and (3) adapt mobile learning practices to the challenges of distraction and 
multitasking [30]. 

This article offers a new, structured perspective on the challenges of mobile learning 
from a comparative perspective of problem assessment by teachers and students. The 
proposed perspective, as shown by comparison of sources with similar studies, is close 
for many developing countries and the Russian Federation, and the recommendations 
are of practical importance for a wider international context.

Based the information given above and the results of this study, the following rec-
ommendations can be proposed:

•	 Universities should improve the technological equipment of educational institutions, 
motivate teachers to use mobile learning (extra pay, time, activities), incorporate 
mobile learning into curricula; motivate students (contests, awards, points).

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

•	 Teachers should improve skills in using mobile learning methods, allocate time for 
self-study and professional development, share experiences with other teachers, and 
adapt teaching methods to mobile learning environments.

•	 Students should improve time-management skills, take a responsible and conscious 
approach to mobile learning, avoid distractions during online classes, learn to work 
independently, and use a variety of online tools and information, not just those pro-
vided by the university.

4 Conclusions

4.1 Theoretical implication

This study was aimed at exploring the opportunities, problems, and prospects for 
the adoption of technological, pedagogical, and psychological techniques in mobile 
learning. The study contributes to identification of the challenges and problems of the 
implementation of mobile forms of education in university. 

4.2 Practical implications

The results showed that 100% of the respondents (university teachers) use mobile 
devices with Internet access in their daily activities. Therefore, it is a matter of short 
time before they start using them in class. In fact, 74% of the teachers said they already 
have experience in using mobile technology in teaching. A high percentage of teachers 
familiar with mobile learning is probably connected to the COVID-19 pandemic, which 
has forced many educational institutions to switch to distance learning. Another reason 
may be that the education market provides a broad range of platforms and tools to ease 
traditional teaching.

The teachers had mixed opinions regarding the effectiveness of mobile learning. 
Many (56%) believe that mobile learning has improved students’ knowledge, but there 
are also those (39%) who reported deterioration. The poor performance of some students 
can be contributed to psychological aspect of mobile learning (poor time-management 
skills, lack of focus, low motivation, irresponsibility, and inattention). Many teachers 
(75%) also reported difficulties in adapting their teaching methods to a mobile learning 
environment. The main obstacle is the lack of direct communication between teachers 
and students. However, teachers noted that giving students the opportunity to commu-
nicate with each other could improve their academic performance. That opportunity 
can be provided by deploying distance learning programs and platforms. 

4.3 Contribution and future direction

From a technological point of view, the current situation is that almost all partici-
pants in the education process have mobile devices at their disposal, but the universities 
do not have the infrastructure to fully exploit all the technological possibilities and tools 
that exist today. This paper sheds light on distinct (i.e., technological, pedagogical, 

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Paper—Solving Technological, Pedagogical, and Psychological Problems in Mobile Learning

and psychological) challenges associated with the adoption of mobile learning. It will 
be of interest to university administrators, teachers, students, parents, and everyone 
interested in modern pedagogy and psychology. The practical significance and pros-
pects for further research are based on the possibility of using the results in further 
study of the problem of the impact of mobile applications on specific indicators. In the 
future it will be important to conduct a comparative analysis of the impact of mobile 
learning on students and teachers, to study the effectiveness of such learning in general. 
Future research may focus on developing mobile teaching methods to overcome iden-
tified challenges and improve the effectiveness of mobile education.

4.4 Research limitations

The results of the study can be considered reliable. However, it should be considered 
that it took place just in two universities in the Russian Federation and the number 
of participants was limited. The limitations of the study are based on a small sample 
and a small number of universities taken to conduct the experiment, which limits the 
results and makes it impossible to monitor the situation regarding mobile learning in all 
universities in the country. To address the limitations, the experience of other countries 
with the ability to address technological, pedagogical and psychological issues related 
to mobile learning should be taken into account.

5 Acknowledgment

Not applicable.

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7 Authors

Fadi Sakka is a PhD, Assistant Professor of the Department of Business and  
Quality Management, Hamdan Bin Mohammed Smart University, Dubai, UAE.  
Email: F.alsakka@hbmsu.ac.ae 

Alena Gura is a PhD of Philosophical Sciences, Associate Professor of the Depart-
ment of History, Philosophy and Psychology, Kuban State Technological University, 
Krasnodar, Russian Federation. Email: gurada@kubstu.ru

Valentina Latysheva is a PhD of Philosophical Sciences, Head of the Department of 
Sociology, Psychology and Social Management, Moscow Aviation Institute (National 
Research University), Moscow, Russian Federation. Email: latyshevaVV@mai.ru

Elena Mamlenkova is an Assistant of the Department of Nursing Management and 
Social Work, I.M. Sechenov First Moscow State Medical University, Moscow, Russian 
Federation. Email: mamlenkova_e_a@staff.sechenov.ru

Olga Kolosova is a PhD in Psychological Sciences, Associate Professor of the 
Department of Marketing, State University of Management, Moscow, Russian 
 Federation; Department of Sociology and Advertising Communications, Russian State 
University named by A.N. Kosygina (Technology. Design. Art), Moscow, Russian 
 Federation. Email: oa_kolosova@guu.ru

Article submitted 2021-08-12. Resubmitted 2021-10-02. Final acceptance 2021-10-04. Final version 
 published as submitted by the authors.

158 http://www.i-jim.org