International Journal of Internactive Mobile Learning (iJIM) - Volume 3, Issue 4, October 2009


A NEW MOBILE LEARNING ADAPTATION MODEL  

A New Mobile Learning Adaptation Model  
doi:10.3991/ijim.v3i4.986 

Mohammad Hassan1, Jehad Al-Sadi2 
1 Amman Al-Ahlyya University Amman, Jordan 

2 Arab Open University, Amman Jordan 
 
 
 

Abstract—This paper introduces a new model for m- Learn-
ing context adaptation due to the need of utilizing mobile 
technology in education. Mobile learning; m-Learning for 
short; in considered to be one of the hottest topics in the 
educational community, many researches had been done to 
conceptualize this new form of learning.  We are presenting 
a promising design for a model to adapt the learning content 
in mobile learning applications in order to match the 
learner context, preferences and the educational objectives.  
Moreover, the proposed model will support the student 
learning context which is a result of the mobility of m-
learning scenarios such as user location, movement, dura-
tion of stay, noise level and availability of resources. Our 
model covers mainly context dimension, user dimension, 
device dimension, and connectivity dimension. 

Index terms—m-Learning, Mobile learning content, Adap-
tation, computer based training (CBT). 

I. INTRODUCTION 
The last four decades added a great enhancement to the 

learning process through introducing a new medium to 
interact and communicate between the learners and the 
tutors. In the seventies, distance learning (d-learning) be-
gan to include audio and video [16]. In the late eighties 
computer based training (CBT) came out to support the 
learning process by using computers and some special 
designed programs that use video, audio, and computer 
graphics[16]. In the late nineties, where the new technol-
ogy of the internet started to be used worldwide, there was 
emergence of the e-learning to describe a new way of 
managing the learning process and delivering the learning 
materials via Internet. In the past few years e-learning has 
grown very fast, and many universities and organizations 
adopted such form of learning [19]. Now, with the speedy 
of mobile technology it seems e-learning is getting ready 
to make another shift to the era of mobile learning [4]. 
Many mobile devices combine telephone, wireless internet 
connection and many of the personal computer capabili-
ties. These devices can enhance the teaching technique 
and help the educational community to achieve the idea of 
learning anytime and anywhere [5]. 

E-Learning can be defined as the utilization of internet, 
intranet, software, and any other e-media to combine the 
power of all the new technologies in order to enhance the 
learning process. E-Learning introduces a different way of 
learning that can help students in many ways[19]. Stu-
dents can access a large amount of information, study in 
their self-base, be more confident, communicate with 
fellow classmates, and they will be released from the tra-
ditional classrooms' stress. However, e-learning is not 
intended to replace the class room learning.It could be 
used alone or in conjunction with more than one tradi-

tional learning methods; in this case the term blended 
learning is used[14].  

E-Learning platform provides several services. Some of 
these services are common and have grown since 
computers were first used in education, the other services 
can vary from one platform to another. One of the most 
important services for any e-learning platform is the learn-
ing content and content presentation. 

e-Learning content is a digital content that is used by 
tutors to present the teaching materials to  students. Much 
effort has been devoted for the reuse of the teaching mate-
rial, and the result was introducing the term Learning Ob-
jects (LO)[15], which are defined as “Any entity, digital 
or non-digital, which can be used, re-used or referenced 
during technology supported learning.”[17].E-learning 
content has a lifecycle which include a number of phases. 
The content pass through these phases before the learner 
can interact with it. Each phase has a specific purpose that 
enhances the leaning content in some way. e-Larning life-
cycle content includes analysis, design, authoring, assem-
bly, transport, storage, delivery, interaction and monitor-
ing [13].       

Mobile learning; m- learning for short; has many defini-
tions revolve in how people can learn or stay connected 
with their learning environments that include their class-
mates, instructors and instructional resources through mo-
bile devices [18]. m-Learning had been added to the 
online learning category, which mean a new supporting 
technique for the education. "Formal Learning now can be 
broadly divided into three categories based on the context 
of occurrence-Regular Class room learning, distance 
learning and online learning [16]. Distance learning can be 
within a class room environment or with online access and 
it can be a combination of both. On the other hand, online 
learning can include e-learning and mobile learning as 
shown in figure 1" [6]. 

The significant developments in mobile technology and 
the new mobile devices that can deliver web or internet-
based learning materials led to a natural flowering of e-
learning to mobile learning [6]. There is a large similarity 
between e-learning and mobile learning. e-Learning can 
be defined as learning supported by digital “electronic” 
tools and media. Milrad defined m-Learning as ‘e-
Learning that uses mobile devices and wireless transmis-
sion [5]. It's clear that mobile learning is a subset of e-
learning [16]. M-learning extends the benefits of e-
learning (e.g. access to information, learning anytime 
anywhere) to a much wider range of teaching and learning 
contexts. With mobile learning, students get a new degree 
of freedom; they can choose when and how they want to 
consume learning contents [7]. However, just as the rela-
tionship between e-Learning and the traditional learning 
methods, mobile learning can not replace the traditional  

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http://dx.doi.org/10.3991/ijim.v3i4.1039�


A NEW MOBILE LEARNING ADAPTATION MODEL  

 
Figure 1.  The relationship diagram that shows different learning ap-

proaches 

classrooms. Mobile learning is a supported teaching tech-
nique that can be presented with conjunction of other 
teaching methods. 

Generally, mobile learning should include tools that en-
able learners to access the learning content that can be 
stored on mobile device or can be accessed via internet 
[1]. Learning materials were developed in large sections 
which may not be appropriate for m-learning. Many 
guidelines have been proposed to help in reorganizing 
learning content to fit the limitation of the small devices 
[4]. There is a common agreement that mobile content 
must be designed in the form of learning objects or gran-
ules to allow for the reusability and flexibility in learning 
materials development and delivery [13]. m-Learning con-
tent must contain visually information and effective 
graphical strategies that can help the student in learning 
via small screens by reducing the amount of reading re-
quired. Moreover, the mobility of m-learning scenarios 
defines a new relation between the learning and the stu-
dent context [12]. This relationship should be taken into 
consideration when designing the mobile learning content. 
Mobile learning content must be developed to support the 
students in any context [2]. Also, mobile learning must be 
able to support different learning styles in different ways 
and motivate the students who may lose their motivation 
because of being far from the traditional class rooms. 

A. Statement of Problem 
There are many problems and issues should be taken in 

the consideration when we want to relocate services that 
are provided by an e-learning platform into services pro-
vided in a mobile learning platform. One of the most im-
portant issues is the content design. Most of today's e-
learning content has been designed for larger screens, 15 
inch or more, how could this content be squeezed in a way 
that fit the mobile devices screen and doesn't limit the 
student interaction with the content. Moreover, the mobile 
learning has its interesting aspect from the idea of learning 
any time anywhere, and in the own student base. But on 
the other hand this aspect inherits a problem that was de-
scried in [8] and to recognize the essential role of mobility 
and communication in the process of learning. In this re-

search paper we introduce a model to design the mobile 
learning content in a way that match the user's preferences 
and context. 

B. Related Work 
Many researchers [9, 10] introduced new approaches 

for adapting content in a mobile environment. One ap-
proach suggested adapting the delivery of small chunks of 
complementary learning content to mobile devices using 
Bayesian belief networks as shown in figure 2. The au-
thors categorize these variables into four main categories: 
device limitations, connectivity, learner’s profile, and con-
tent types [3]. 

A tree organization for the learning objects has been 
presented in [10], where each object in the tree have a 
certain goal (level) and specific features which are com-
pared with the learner' contexts and preference. The se-
quence of objects is dynamically changed according to the 
learner contexts and preference. This model enables the 
learner to participate in customizing his own course. 

TABLE I.   
DEVICE SPECIFICATIONS 

 
Figure 2.  A potential model showing dependences among adaptation 

attributes. Shaded nodes are decision nodes and un shaded ones are 
evidence nodes. Dotted lines represent possible variations. 

The reusability of existing learning content has been 
proved to be an efficient way for universities to provide 
students with mobile learning services. An example on 
how we can get benefit from an existing e-learning con-
tent is presented in [7]. It proposed a practicable and easy 
to use procedure to facilitate traditional e-learning content 
to users of mobile. Callum and Kinshuk [11] presented a 
case study on the functionalities and capabilities of differ-
ent devices as shown in Table 1. It aims to create an 
awareness of the actual difficulties that are inherited when 

iJIM – Volume 3, Issue 4, October 2009 5



A NEW MOBILE LEARNING ADAPTATION MODEL  

interacting via mobile devices with discussion forums and 
other utilities due to technological functionality limita-
tions. 

II. THE PROPOSED MODEL 
The evolution of information and communication tech-

nologies in the last three decades has had an impact in all 
aspects of human activities. Learning has also been sub-
ject of these changes. Current research efforts in the field 
of mobile learning have been in many cases guided by a 
learner-centered approach. Context and content adaptivity 
are crucial components in mobile learning environments. 
One important challenge is how to design and implement 
technological tools and methods to support them. In order 
to tackle this challenge, learners' context should be de-
fined. In this paper, we describe our current efforts regard-
ing how to model context in mobile learning activities. 
We introduce an environment dependent context model 
based on four dimensions context that can be used to de-
sign and support context in mobile learning environments. 

The model will reallocate the e-learning content into 
wide range of mobile devices; also it will support the mo-
bility of the learner by taking into consideration the 
learner's context. Our model will base on the guidelines 
that were introduced in [10]. As shown in figure 3, the 
author organized the course as a sequence of objects in a 
tree form. Each object in the tree has a certain goal (level) 
and specific features. 

The learner will sit his contexts as well as his prefer-
ence. The sequence of objects is determined based on the 
object's attributes and the learner' contexts. The sequence 
of objects can be changed dynamically, according to the 
changes in the user context  

The user context and preferences are not the only issues 
that should be taken into consideration when designing 
mobile learning content. The device limitation and the 
connectivity also play major role in designing mobile 
learning content. In addition, it is not enough to only 
change the sequence of objects to fit the different scenar-
ios of mobile learning. 

Based on the above statement, content presentation 
should be changed as well as the sequence of objects. 
Several dimensions of adaptations need to be considered 
as shown in Fig. 4. In this new model, we are building a 
flow diagram to produce a mobile learning context based 
on a set of dimensions, each dimension has several fac-
tors. Our model will consider each factor in order to make 
the context adequate to the limitations of mobile function-
alities and also to present the content in the adapted m-
learning platform. We introduce a multidimensional 
model  that consists  of  the  context  dimension,  the user 

 
Figure 3.  Objects structure 

 

 
Figure 4.  The model of M-learning 

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A NEW MOBILE LEARNING ADAPTATION MODEL  

dimension, the mobile device dimension and the connec-
tivity dimension. According to these dimensions the se-
quence of objects and the presentation of the content may 
be changed dynamically. 

Context Dimension: Under this dimension, all of the 
possible context scenarios are taken into consideration such 
as user location, noise level and availability of resources.  

User Dimension: This dimension defines two basic 
categories of attributes. The first category includes the 
learning model.  

Attributes such as module completed, weight, score, 
time taken, date of last access and so on. The second cate-
gory is about the user preferences and contains attributes 
such as preferred difficulty level and learning style.  

Device Dimension: Device dimension include attributes 
such as the device types and its capabilities, limitations, 
display capability, memory, and so on. 

Connectivity Dimension: In this dimension there is 
more than one possible scenario. 

The transformation of the learning content will be in re-
spect of four types of adaptation which are: adaptation on 
the content presentation, entire order, level of detail, and 
finally on the learning object flow. The adaptation engine 
will be used to conceptualize the different relationships 
between the context factors and the available types of ad-
aptation and it will define the appropriate content that 
should be presented to the learner. However, this content 
must be compatible with the learning objectives as well as 
with the learner context and preferences. 

For example the user can operate in a real-time online. 
In this aspect, the operating connecting speed and 
throughput determine some of the adaptation capability 
such a multimedia representation or text-based representa-
tion. Here device capability and network reliability and 
connecting type are the main consideration for adaptation. 

To adapt content we can adapt the selection of adequate 
learning object or their assembly. For adaptive presenta-
tion, the visualization and animation of content, combina-
tion of text, sound, video and images are heavily influ-
enced by the type of users’ learning modalities.  

According to the adaptation’s features, the adaptation 
engine determines how the sequence and the presentation 
of object can be adapted using a set of adaptation rules 
with respect to the learning objectives aspects. 

III. CONCLUSION 
We have introduced a new model for m-learning con-

text adaptation. This model is intended to adapt the learn-
ing content in mobile learning applications in order to 
match the learner context, preferences and the educational 
objectives.  Furthermore, our model will support the stu-
dent learning mobility and the change in the user context. 
The presented m-learning model describes several dimen-
sions where each dimension contains several context re-
lated to specific specialization. These contexts reflect spe-
cific factors in each dimension. Our future work will in-
vestigate more in the role and specification of each factor 
and its effect of the flow process of our model. Also we 
will compare our model with other comparative research 
work to produce statistical result. 

 
 

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AUTHORS 
Mohammad Hassan is with the Amman Al-Ahlyya 

University, AMMAN, Jordan (mhas-
san@ammanu.edu.jo). 

Jehad Al-Sadi is with the Arab Open University, 
AMMAN, Jordan (j_alsadi@aou.edu.jo). 
Submitted 30 June 2009. Published as resubmitted by the authors on 9 
October 2009. 

iJIM – Volume 3, Issue 4, October 2009 7

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http://ltsc.ieee.org/doc/wg12/LOMv4.1.html�
http://www. wikipedia.c/�