1) The document discusses developing online learning resources (OLR) to support pervasive knowledge through integrating technologies like big data, social networks, cloud computing, and the semantic web.
2) It proposes a framework to enhance OLR that incorporates big data to create value from educational data, cloud computing for flexible implementation, and social networks/Web 2.0 as knowledge sources.
3) Integrating these technologies can help redefine OLR to support pervasive knowledge through multiple knowledge acquisition channels and flexible technological adoption.
Virtual reality for collaborative e-learning. Teresa Monahan, Gavin McArdle, ...eraser Juan José Calderón
Virtual reality for collaborative e-learning
Teresa Monahan *, Gavin McArdle, Michela Bertolotto
School of Computer Science and Informatics, University College Dublin, Belfield, Dublin 4, Ireland
Received 20 September 2006; received in revised form 5 December 2006; accepted 11 December 2006
A Survey on Autism Spectrum Disorder and E-Learningrahulmonikasharma
Autism or mental imbalance is turmoil in the development and improvement of a mind or central nervous system that covers a huge range of skills, impairment and symptoms. The children who are experiencing autism (or mental imbalance) confront challenges in conveying and adjusting in the group as they experience difficulty in understanding what others feel and think. These days learning innovations changed instructive frameworks with amazing advancement of Information and Communication Technologies (ICT). Moreover, when these innovations are accessible, reasonable and available, they speak to more than a change for individuals with Autism Spectrum Disorder. In this paper, a writing study and foundation study is done on the Autism Spectrum Disorder (ASD) and E-Learning System for Autism Children.
E-Learning in the university: When will it really happen?eLearning Papers
eLearning has enormous potential in education, and there is an urgent need to take stock of the possibilities that it offers. Despite this urgency, research on eLearning is still in a nascent stage and there is a degree of conceptual confusion in the field that is difficult to tolerate.
Authors: Ann-Louise Davidson, David Waddington,
Enriching E-Learning with web Services for the Creation of Virtual Learning P...IJERDJOURNAL
ABSTRACT:- The study aims at creation of virtual learning environment(VLE) using the context of web services .Now-a-days eLearning is gaining a wide spread acceptance since its inception. Much of the effort is placed on developing rich educational content & create global platform in which Information and Communication Technologies (ICTs) are used to transform education. Therefore education system need to be redesigned in a better way for which amalgamation of web services with eLearning is considered to solve the complex problems. The author tries to describe the web services architecture with the incorporation of eLearning that has defined a new way of learning. With the emergence of computer technology and urbane softwares, there is every possibility of enriching learning experience of students. Gamification, StoryBoard, Bring Your Own Device (BYOD), Localization are considered as supporting services for boosting up knowledge management process. Group Discussions, Twitter chats, Skype calls are performed in social learning. Web 2.0 services such as as blogs promote content creation, wikis make user enable of creating editable contents.
Virtual reality for collaborative e-learning. Teresa Monahan, Gavin McArdle, ...eraser Juan José Calderón
Virtual reality for collaborative e-learning
Teresa Monahan *, Gavin McArdle, Michela Bertolotto
School of Computer Science and Informatics, University College Dublin, Belfield, Dublin 4, Ireland
Received 20 September 2006; received in revised form 5 December 2006; accepted 11 December 2006
A Survey on Autism Spectrum Disorder and E-Learningrahulmonikasharma
Autism or mental imbalance is turmoil in the development and improvement of a mind or central nervous system that covers a huge range of skills, impairment and symptoms. The children who are experiencing autism (or mental imbalance) confront challenges in conveying and adjusting in the group as they experience difficulty in understanding what others feel and think. These days learning innovations changed instructive frameworks with amazing advancement of Information and Communication Technologies (ICT). Moreover, when these innovations are accessible, reasonable and available, they speak to more than a change for individuals with Autism Spectrum Disorder. In this paper, a writing study and foundation study is done on the Autism Spectrum Disorder (ASD) and E-Learning System for Autism Children.
E-Learning in the university: When will it really happen?eLearning Papers
eLearning has enormous potential in education, and there is an urgent need to take stock of the possibilities that it offers. Despite this urgency, research on eLearning is still in a nascent stage and there is a degree of conceptual confusion in the field that is difficult to tolerate.
Authors: Ann-Louise Davidson, David Waddington,
Enriching E-Learning with web Services for the Creation of Virtual Learning P...IJERDJOURNAL
ABSTRACT:- The study aims at creation of virtual learning environment(VLE) using the context of web services .Now-a-days eLearning is gaining a wide spread acceptance since its inception. Much of the effort is placed on developing rich educational content & create global platform in which Information and Communication Technologies (ICTs) are used to transform education. Therefore education system need to be redesigned in a better way for which amalgamation of web services with eLearning is considered to solve the complex problems. The author tries to describe the web services architecture with the incorporation of eLearning that has defined a new way of learning. With the emergence of computer technology and urbane softwares, there is every possibility of enriching learning experience of students. Gamification, StoryBoard, Bring Your Own Device (BYOD), Localization are considered as supporting services for boosting up knowledge management process. Group Discussions, Twitter chats, Skype calls are performed in social learning. Web 2.0 services such as as blogs promote content creation, wikis make user enable of creating editable contents.
lecture presented by Joseph M. Yap at PAARL’s Seminar /Parallel Session-workshop on Library and Web 2011 (Holy Angel University, Angeles City, Pampanga, 19-20 August 2010)
Contextualization of Open Educational Resources in Asia and EuropeJan Pawlowski
The presentation shows current developments of OER in Europe and Asia - starting with barriers and analysis of the current status, we realized three case studies, looking at OER in Finland, Malaysia and Philippines. The results lead to 10 main recommendations to achieve successful, cross-border collaborations for learning and teaching using OER.
Thanks to Steve Wheeler and Terry Anderson for some of the slides used in this short presentation. Originally this was put together to seed discussion amongst Education Studies students about the future of e-learning.
See Wiki with resources:
http://techtrendsineducation.wikispaces.com/home
Slides used during talks given at Fordham University:
In a world where technology is changing faster than ever it's important not to just keep up with what's currently available, but to be thinking ahead. The New Media Consortium just released their 2013 Horizon Project Short List report that includes 12 coming technology trends in higher education.
lecture presented by Joseph M. Yap at PAARL’s Seminar /Parallel Session-workshop on Library and Web 2011 (Holy Angel University, Angeles City, Pampanga, 19-20 August 2010)
Contextualization of Open Educational Resources in Asia and EuropeJan Pawlowski
The presentation shows current developments of OER in Europe and Asia - starting with barriers and analysis of the current status, we realized three case studies, looking at OER in Finland, Malaysia and Philippines. The results lead to 10 main recommendations to achieve successful, cross-border collaborations for learning and teaching using OER.
Thanks to Steve Wheeler and Terry Anderson for some of the slides used in this short presentation. Originally this was put together to seed discussion amongst Education Studies students about the future of e-learning.
See Wiki with resources:
http://techtrendsineducation.wikispaces.com/home
Slides used during talks given at Fordham University:
In a world where technology is changing faster than ever it's important not to just keep up with what's currently available, but to be thinking ahead. The New Media Consortium just released their 2013 Horizon Project Short List report that includes 12 coming technology trends in higher education.
A Survey on E-Learning System with Data MiningIIRindia
E-learning process has been widely used in university campus and educational institutions are playing vital role to enhance the skill set of students. Modern E-learning done by many electronic devices, such as smartphones, Tabs, and so on, on existing E-learning tools is insufficient to achieve the purpose of online training of education. This paper presents a survey of online e-Learning authoring tools for creating and integrating reusable e-learning tool for generation and enhancing existing learning resources with them. The work concentrates on evaluation of the existing e-learning tools a, and authoring tools that have shown good performance in the past for online learners. This survey work takes more than 20 online tools that deal with the educational sector mechanism, for the purpose of observations, and the outcome were analyzed. The findings of this paper are the main reason for developing a new tool, and it shows that educators can enhance existing learning resources by adding assessment resources, if suitable authoring tools are provided. Finally, the different factors that assure the reusability of the created new e-learning tool has been analysed in this paper.E-learning environment is a guide for both students and tutorial management system. The useful on the e-learning system for apart from students and distance learning students. The purpose of using e-learning environment for online education system, developed in data mining for more number of clustering servers and resource chain has been good.
Educational and Technological Standards of Educational Software Based on Inte...iosrjce
This research aims This research aimed to provide good standards for the design and development of
educational software based on the Internet, which could benefit the organizers of the design and development of
educational software, from the point of view of educational technology lecturers, and educational software
designers at Al-Aqsa University Gaza-Palestine. The researcher used the descriptive analytical method during
the application of research on a sample of specialized lecturers in education technology. The researchers
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OER: Disruptive Innovative Solution to the Challenges of EducationRamesh C. Sharma
The education sector globally is facing a lot of challenges: the challenge of numbers, of relevance, of quality, of access, of costs and of speed. The solution to these multiple challenges probably lies in a number of disruptive innovative solutions. These include inculcating self-learning (building on meta-cognition), measuring learning, collaborative and co-operative learning, personalisation of learning and learning analytics. However, in addition to new systems or technologies, we need a fundamental change of perspective. A very promising technological and pedagogical model that has received a lot of attention during the last few years and adoption by Stanford, Harvard, Duke and almost 100 of the world's top ranking Universities to teach millions of learners is that of the MOOC.
The Open Educational Resources have become an important part of educational delivery. The establishment of OER University is a milestone in that direction. There are hundreds of OER repositories to allow teachers and students to use, and adopt content. Keeping in view the significance of OERs, we organized The OER MOOC with the purpose to enhance knowledge about OERs and to equip for effective use and adopt OERs in ones programs as well as to be able to create your own OERs and contribute to the pool of OER resources. We further wanted to explore the potential of MOOCs to create a model of simultaneously teaching on-site and off-site learners, using synchronous and a-synchronous teacher learner interactions to deliver high quality learning to large numbers, maybe evolve a model for a classroom of 10,000 learners. In this study, we shall elaborate on our methodology, outcomes and the impact factors The OER MOOC had on the learners.
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Developing online learning resources: Big data, social networks, and cloud computing to support pervasive knowledge
1. Developing online learning resources: Big data, social
networks, and cloud computing to support
pervasive knowledge
Muhammad Anshari1
& Yabit Alas1
& Lim Sei Guan1
Published online: 21 May 2015
# Springer Science+Business Media New York 2015
Abstract Utilizing online learning resources (OLR) from multi channels in learning
activities promise extended benefits from traditional based learning-centred to a col-
laborative based learning-centred that emphasises pervasive learning anywhere and
anytime. While compiling big data, cloud computing, and semantic web into OLR offer
a broader spectrum of pervasive knowledge acquisition to enrich users’ experience in
learning. In conventional learning practices, a student is perceived as a recipient of
information and knowledge. However, nowadays students are empowered to involve in
learning processes that play an active role in creating, extracting, and improving OLR
collaborative learning platform and knowledge sharing as well as distributing.
Researchers have employed contents analysis for reviewing literatures in peer-
reviewed journals and interviews with the teachers who utilize OLR. In fact, re-
searchers propose pervasive knowledge can address the need of integrating technolo-
gies like cloud computing, big data, Web 2.0, and Semantic Web. Pervasive knowledge
redefines value added, variety, volume, and velocity of OLR, which is flexible in terms
of resources adoption, knowledge acquisition, and technological implementation.
Keywords Cloudcomputing.Socialnetworks.Onlinelearning.Pervasiveknowledge.
Web 2.0 . Semantic web
Educ Inf Technol (2016) 21:1663–1677
DOI 10.1007/s10639-015-9407-3
* Muhammad Anshari
anshari.ali@ubd.edu.bn
Yabit Alas
yabit.alas@ubd.edu.bn
Lim Sei Guan
seiguan.lim@ubd.edu.bn
1
Universiti Brunei Darussalam, Gadong, BSB, Brunei
2. 1 Introduction
Schools and universities are taking benefit of the recent development in Information
and Communication Technology (ICT) embracing Online Learning Resources (OLR)
as an integral part of teaching and learning activities. Online resources refer to a wide
range of information available on the Internet including text, images, videos, case
studies, journals, databases, and curriculum (Elbaum et al. 2002). Online learning is a
generic term to refer to technology-supported learning, rather than similar terms such as
electronic learning (e-learning), web-based learning, distributed learning and
technology-mediated learning (McGill and Klobas 2009). Bersin (2012) proposes the
framework by highlighting the evolution of learning solutions focusing on adoption of
technology in education from years 2000 and on it can be seen in Fig. 1. At the early
stage of e-learning’s adoption, the systems stored online learning resources and students
retrieved those resources for learning. Then, ICT evolved that enable simple one to one
interaction through chats rooms. It was followed by the concept of blended learning
where students half way was online learning and the other half approach was offline
learning.
Noticeably, the evolution is not replacing previous technological adoption rather
than it extends from the previous systems with more features or sometime different
approaches in delivering contents. Starting from 2011, the rich content media and
collaborative concept were used into online learning tool and resources. Social learning
have empowered students more to the students centric approach that they are able
generate contents in any form of online learning resources and share with other students
Fig. 1 Technology and learning solution. Source: Bersin (2012)
1664 Educ Inf Technol (2016) 21:1663–1677
3. (Alas & Anshari 2014). By then, learning technology promotes pervasive knowledge to
support multi channels of generating knowledge from multi users and resources.
In addition, rapidly changing nature of technology is a common sight when the
younger generations particularly school children and young generation are now the
‘digital natives’ compared to the older generation. Students in school and universities
are the vast majority of people who have been exposed to online environment. They
dominate the activities of texting, online-chatting, blogging, tweeting and several social
networking sites to interact with their peers. Even, youth may interact more easily with
computers than they do in face- to-face contexts. Due to this, most teachers in school
have opted for online teaching where it most offers a similar range of helpful features to
help them create, manage, upload their course content outline. Teachers have also
begun to embrace students’ interest in creating learning language with multi channels
of online resources.
Furthermore, with the adopting Web 2.0 technology, the capability of current OLR
can be enhanced further. It is believed that Web 2.0 has shifted user behaviour due to
the use of social network and media. For instance, many people will not make a
decision before referring to information in social sites (Hudson and Thal 2013). It
means social media can be considered as online resources in taking decision. Similarly,
in the learning context, students exchange information and ideas in social networks that
make potential students to seek opinions before taking any action. Online learning
needs to build a technology stack to support a Web of data. Web of data enables users to
generate data stores on the Web, build vocabularies, and write rules for handling data.
Next generation of e-learning needs to enabling students to find, share, and
combine information more easily through Semantic Web. This paper addresses
the need to accommodate the concept of social networks and semantic web as
strategic tool in developing OLR’s scenario to form of pervasive knowledge based
system.
In term of systems’ adoption, the emergence of cloud computing has improved
capabilities of teaching and learning practices which are more cost efficient, easily
accessed, and reliable. Al-Zoube (2009) argued that cloud computing in online learning
could manage effectively the technological needs of a university such as delivery of
software, providing a development platform, storage of data, and computing. Cloud
based e-learning is managed by the service provider where the service provider
typically offers 24 h and 7 days a week, plus full back-ups every night. This solution
does not require an IT department or server resources from organization. Oppositely, in
house development requires own organization’s infrastructure (servers, storages, fire-
wall, etc.). Support is provided during business hours and emergencies. This works
well for organizations with a dedicated IT staffs (developer, DB admin, network admin,
security admin) and the infrastructure and resources to provide support for possible
issues. Cloud computing is more responsive when there are problems and all issues will
be on cloud service provider. Service outages are critical and outages are unacceptable.
When the learning management system goes down, student learning is disrupted and
instructors have to question whether to trust such a system, therefore reliability is
competitive advantage of cloud computing in e-learning service. Though, there are
challenges on some issues when organizations consider cloud computing as a service
provider such as dependency’s factor to the provider, security and privacy issues, and
cost effectiveness in the long run planning.
Educ Inf Technol (2016) 21:1663–1677 1665
4. Recent discussion of OLR is supported in the e-learning literatures, and it has been
used for education institutions over the past decade. The proposed model is developed
to enhance existing theory of pervasive knowledge in education context and business
processes. The model integrates the scope of value creation Big Data in education,
Cloud Computing approach to ensure flexibility of implementation, Social Networks
and Web 2.0 as source of knowledge for users. The model is expected to contribute in
considering multi channels of sources of knowledge to achieve pervasive knowledge.
The study is to lay the perspective for OLR to support pervasive knowledge through
cloud computing, and Social Network. This paper is organised as follows: the next
section discusses the literature analysis on OLR, Social Network, Web 2.0, Big Data,
and Cloud Computing. Section 3 explains research methodology, the discussion is in
Section 4, and Section 5 is the conclusion.
2 Online learning resources (OLR)
There is a rise in number of teachers using OLR in their teaching because not only
teachers get to understand how to use technology as a dynamic tool, but they also get to
develop their interpersonal skills and enhance their teaching skills and students learning
experience. There are myriad of useful online resources to be shared with students and
that usually will result in their academic performance. Students are more engaged in
learning if we integrate watching a video, research-using Internet, take part in the role-
play or debate. Throughout, learners will inevitably learn blended learning without
them realising it. One of the benefits of OLR is that for teachers, we have the
opportunity to use resources from some of the most reputable institutions in the world
for quality learning and teaching.
OLR, such as interactive online games, video clips, podcasts and data sets, allow
teachers to address a range of learning styles and meet the needs of every student.
Whether teacher showing video to the entire class or overseeing individual online
interaction. Online resources can provide a gateway to a whole new level of learning
for teacher and students (Jean n.d.). A subset of OLR is available easily, which are
curriculum, lesson plans or subjects, which students are studying. For instance, in
English subject, we are exposed to all sorts of language learning activities, such as oral
practice, reading with correct intonation and writing skills development but what makes
it even more successful is when they are all integrated through themed activities in
class. OLR is supported by technology resources ranging from computers, mobile
devices like smartphones and tablets, digital cameras, social media platforms and
networks, software applications, the Internet, etc. in daily classroom practices, and in
the management of a school (Lucas 2015). The most frequent online resources types
are: E-journals, E-books, Full-text (aggregated) databases, indexing and abstracting
databases, Reference databases (biographies, dictionaries, directories, encyclopaedias,
etc.), Numeric and statistical databases, E-images and E-audio/visual resources.
All these resources become an advantage especially when it comes to learning and
teaching activities. Littlejohn (2003) has drawn a prediction for university students to
increase in number from around 70 million to a 160 million by 2025. In around that
time, managing these students becomes overwhelming not in terms of just ratio of
students per teacher but also the facilities involved. There will be a difficulty in
1666 Educ Inf Technol (2016) 21:1663–1677
5. providing equipment, classrooms, hostels and eventually staff to manage the university
(Fig. 2).
A solution to the situation above would be by using OLR as a teaching material
instead, this way classes can be more manageable through more unique approaches
such as blended learning or fully online. There are plenty of benefits when it comes to
using online resources: Information can be accessed from different opinions of profes-
sions relevant to search; teaching management can be handled in terms of time, space
and frequency; students sharing information through an internet medium (e-mail,
cloud-based drives, etc.); accessibility and availability of resources become convenient
for anytime and anywhere. (COFA 2015). The Technological Pedagogical Content
Knowledge (TPACK) framework (Fig. 1) arranges the knowledge educators need to
integrate technology into their teaching (TPACK 2012). However, the adoption of OLR
should be fine-tuned to accommodate the massive pervasive knowledge in teaching and
learning activities through the advancement of ICT.
2.1 Online learning
Online learning is a widely used terminology to address online based learning because
it covers information systems which include technology, users, strategies, and business
processes (Caret 2013). Online learning systems enhance instructors and students to
share OLR, make class announcements, submit and return course assignments, and
conduct conversations with each other online. Online learning resource is an informa-
tion system that facilitates online learning and processes, stores, disseminate educa-
tional material, and supports administration and communication associated with teach-
ing and learning (McGill and Klobas 2009).
Fig. 2 The TPACK framework. Source: TPACK (2012)
Educ Inf Technol (2016) 21:1663–1677 1667
6. The roles of online learning have been well recorded in many studies. Early adopters
of online learning were convinced that it made teaching more efficient (Morgan 2003)
and most early online learning systems are used only for the distribution, management,
and retrieval of course materials (Lonn and Teasley 2009). For instance in 2007 over
90 % of US universities and colleges had established one or more e-learning -type
products for student and faculty use (Hawkins and Rudy 2008). In the last decades, e-
learning has been one of the most significant developments of ICT in universities to
support the teaching and learning process (Coates et al. 2005).
However, next generation of OLR’s adoption should accommodate dynamic inter-
active and alternative learning experiences to students where knowledge management
from multi-channels and social networks are blended to provide comprehensive learn-
ing experiences. The aim of this paper proposes a framework of OLR with cloud
computing based and big data integration.
2.2 Semantic Web and pervasive knowledge
The concept of Semantic Web is originated from the concept of Semantic Network
Model. Semantic Network Model is a model as a form to represent semantically
structured knowledge. The Semantic Web is a web of data that can be processed
directly and indirectly by machines. Web of data is driving the evolution of the current
Web by enabling users to find, share, and combine information more easily (Berners-
Lee et al. 2001).
Semantic Web is an effort to enhance current web so it can process the information
presented on Web based, interpret and connect it, to help users (students) to find
required knowledge. The main idea of Semantic Web is to share data instead of
documents. In other word, social websites can serve as rich social data sources for
the Semantic Web. People are creating rich information through their everyday inter-
actions with social websites that can support Semantic Web data by connecting things
together forming the source of knowledge for people.
One of the roles for OLR is delivering knowledge contents to the students through
online media (Anderson 2008). Semantic Web enables to exchange of knowledge and
resources across multiple channels (Gandon 2002). The focus of pervasive knowledge
management is recognized in different areas of data and information management,
including accessibility, collaboration, information utilization, integration, and process
automation of data (Gebert et al. 2003). Semantic Web can be an approach for acquiring
pervasive knowledge in online learning systems (Sampson et al. 2004). Researchers use
the Semantic Web to describe people, content objects and the connections that bind
them all together so that social sites can interoperate via semantics (Stojanovic et al.
2001).
2.3 Web 2.0 and cloud computing
Web 2.0 tools are important for developing of social network to encourage knowledge
sharing. Web 2.0 has enabled a mechanism to extend the OLR by accommodating
students’ opinion by enabling them to participate more actively in the information and
generating knowledge through social media. The advantage of Web 2.0 has the
capability to track conversations about business operations. A university can benefit
1668 Educ Inf Technol (2016) 21:1663–1677
7. from connecting directly with existing and potential students through various social
networks, tracking students’ comments, opinions or suggestions and then approach
them with a more personal touch (Anshari et al. 2012).
Cloud computing has emerged with new paradigms attributable to Web 2.0 (Esri
2013). A school and university may avoid over-investing in IT infrastructure and
training staff to serve the need for e- learning but find it more beneficial to consider
renting the system and resources to keep a university focus in their core on teaching,
learning, and research. Cloud computing eliminates the need to install and run the
application on the users’ own computers. Moreover, it lessens the internal IT staffs’
burden of maintenance, monitoring operations, and 24/7 support for any incident that
may occur.
Moving e-learning into cloud computing brings many benefits when current IT
investments are directed to the maintenance of infrastructures such as servers and in
house data storage devices (Armbrust et al. 2010), so it can be significantly decreased
by the use of cloud computing to save the data storage from their current budget. In
general, reducing cost and increasing efficiency are primary motivations for moving
towards cloud computing. Many universities deploy cloud computing due to a cost-
effective solution to the problem of providing reliable services, data storage, and
computing power to a growing number of students without investing more in physical
machines and maintenance costs (Al-Zoube 2009). A university takes advantage of
using a cloud when the ICT capacity needs extensibility, customizability and scalability
(Vouk et al. 2008; Doelitzscher et al. 2011). Cloud computing provides the advantage
of the ability of working and communicating in the educational environment without
taking into account space and time (Vouk et al. 2008).
There are many benefits for cloud computing in education. Those benefits range
from providing educational resource storage and databases, e-mail, educational appli-
cations and tools for students and teachers and clients located all over the world
involved in an educational program (Sultan 2010; Cappos et al. 2009). However, the
main advantage is cost effectiveness for the implementation of the hardware and
software and this technology can improve the quality of current systems of education
at an affordable cost (Ghazizadeh 2012). Furthermore, with cloud computing, univer-
sities can focus on their core business of teaching and research while cloud computing
manages complex IT configuration, maintenance, and software systems through quick
deployment (McCREA 2009; Tout et al. 2009).
IT expenses generally associated with developing, procuring, administering, and
maintaining in-house IT infrastructure can be shifted to the cloud vendor (Symantec
2011). Cloud computing that introduces an efficient scale mechanism can let the
construction of an e-learning system be entrusted to suppliers and provide a bended
mode for e-learning (Laisheng and Zhengxia 2011). Cloud computing can reach
efficiency if the same work is performed with fewer resources.
Previous studies (Buyya et al. 2009; Vouk 2008; Zhang et al. 2010) have suggested
that cloud computing is more reliable than building in-house systems as follows: first,
data centralization can inhibit less risks to universities with mobile users than having
data separately on portable computers, mobile devices, or removable media. Second,
cloud service providers equip them with staffs that are specialized in security, privacy,
and other areas of high interest and concern to the organization. Third, uniformity and
homogeneity of cloud computing platforms enable better information security
Educ Inf Technol (2016) 21:1663–1677 1669
8. management like configuration of security control, vulnerability audits, penetration
testing, and security patching (Subashini and Kavitha 2011). The platform support
requires meeting operational standards, compliance, and certification (Brandic et al.
2010). Forth, data stored within cloud computing can be more accessible, more
available, faster to store and retrieve, and more reliable in many conditions than
managed data internally in an organization data centre (Sultan 2010). Finally, robust-
ness and the scalability of cloud computing services enable greater availability
(Computing 2008). Redundancy and disaster recovery plans are built into cloud
computing infrastructures and on-demand resource capacity can be extended for better
flexibility when service demands are increased and for faster recovery from serious
incidents (Mell and Grance 2009).
In addition, an information system in a university always evolves as a natural
progress in accordance with changes. New software causes significant capital invest-
ments in new hardware whereas students frequently need both the software and
development platforms during their study (Madhumathi and Ganapathy 2013). With
cloud computing, a university can utilize demand access to scalable and complexity of
ICT and cloud computing has fundamentally changed the way in which organizations
pay only what they use information systems or resources. It enables a university to react
faster to the needs of business easily without expensive changes to existing IT
infrastructure, while driving greater operational efficiencies and allowing orga-
nizations to support business growth by upscaling or downscaling IT require-
ments when required. Because of scalability of cloud computing, many univer-
sities are now relying on managed data centres for easy allocation of resources
in a trusted environment.
2.3.1 Big data
Big data is a new generation of technologies and architectures that is designed to extract
value from large volumes of a wide variety of data by enabling high-velocity capture,
discovery and analysis (Villars et al. 2011). Big data has been used in multiple business
scenarios, for instance, Roadnet Technologies Inc. used real time data from more than
100 million vehicles and mobile devices, and combined it with other data such as
weather reports, historical traffic reports, and sporting events to help trucking compa-
nies save fuel, time, and costs (Rosenbush and Totty 2013). Big data has been defined
as early as 2001. Doug Laney, an analyst of META (presently Gartner) defined
challenges and opportunities brought about by the increased data with a 3Vs
model, i.e., the increase of Volume, Velocity, and Variety, in a research report
(Laney, 2001). In the B3Vs^ model, Volume means, with the generation and
collection of massive data, data scale becomes increasingly huge; Velocity
means the timeliness of big data, specifically, data collection and analysis,
etc., must be rapidly and timely conducted, so as to maximum utilize the
commercial value of big data; Variety indicates the various types of data, which
include semi-structured and unstructured data such as audio, video, webpage,
and text, as well as traditional structured data.
Data sources may be thought of under three main headings each of which may be
applied in surveillance contexts: directed, automated, and volunteered (Kitchin 2014).
In the first, a human operator obtains the data, obvious examples being CCTV systems
1670 Educ Inf Technol (2016) 21:1663–1677
9. or police seeking, say, vehicle ownership records. In the second, the data are gathered
without a human operator intervening; traces are recorded routinely from transactions
with banks or consumer outlets and communications, using cellphones above all. In the
third, data are in a weak sense Bvolunteered^ by the user who gives out information on
social media sites and the like (Lyon 2014). Of course, social media users do
not necessarily think of their activities in terms of volunteering data to third
parties (Trottier 2014) but this is an accurate way of understanding surveillance
data gathering in this context.
Big Data practices occur in a variety of contexts (Mayer-Schönberger and Cukier
2013) so that education providers can leverage big data capability to discover new and
useful insights about their services processes, students, or even competitors in private
sectors. However, the most important factor to consider big data in education’s context
to gain its value for better educational outcomes.
3 Methodology
The objective of the study is to propose model of an OLR that accommodate
social networks, Semantic Web, Big Data and Cloud Computing to facilitate
pervasive knowledge management. The stages of study are literature review,
propose reference model, interview to verify the model and confirm the model
with testing. Each phase employs different approach and method. In this paper we
focus the phases of literature analysis to the reference model. To develop such a
model, this article builds on recent reviews of Cloud Computing, Online Learning
Resources and Semantic Web. The Google Scholar search was conducted using
keywords Semantic Web AND online learning, Big Data, Cloud Computing and
Online Learning, Social network and online learning. After removing duplicates
and articles beyond the scope of this study, researcher selected 55 articles for
reviews. Researchers employ meta-synthesis to integrate, evaluate and interpret
the findings of multiple research studies from phenomenological and grounded
theory be integrated and used. Those ideas were combined to identify their
common core elements and themes. Then, we analyse and synthesize key elements
into new interpretations, conceptualizations, and modelling of OLR with pervasive
knowledge. We chose only English-language articles published in peer-reviewed
journals. Then, we conducted interviews to the selected teachers at high schools
level who use OLR. The interviews’ resulted were coded and analysed to refine
the proposed model.
4 Pervasive knowledge
Recognizing the critical resources is the factor for teachers to obtain the proper mix of
resources. The resource is ranging from IT infrastructure, knowledge acquisition
technique, learning management systems, and human resource readiness. In fact,
teachers can minimize the effects of single scenario dependency and thus increase their
likelihood of teaching. The recent development of Web 2.0, cloud computing and their
related technologies contributes towards the tendency to utilize OLR. Web 2.0 offers
Educ Inf Technol (2016) 21:1663–1677 1671
10. students the ability to have greater control of information flow and ownership in social
networks, hence active participation is highly possible.
Web 2.0 helps teachers in providing rich contents of knowledge. For instance,
researchers interviewed participants who are English teachers about their experienced
of OLR through Web 2.0 Bas an English teacher, the online medium does not just
restricted to one but many platforms which she thinks is very beneficial for her
teaching. One of their favourite online resources is the good modern English dictio-
naries as they are profoundly useful because instead of giving us the series of words,
they give the phrases, collocation, how frequent the word is, pronunciation. Teachers
even shared and encouraged their students to subscribe to some good English
Dictionaries that offer multiple features such as rules of grammar, when and where
to apply specific words in writing. To make English more enjoyable, they do not restrict
them to only comply with the good old use of solid exercise book for doing writing or
doing revision, but they also suggested and encouraged them to do online exercises as
they understand the application of certain or specific topics better with visuals and
sounds coming from the online exercise. The feedbacks from students regarding OLR
have made a good progress in their language learning skills. Some students are blog
writers and writes short stories and entries in online columns. If they were to discuss
about finding source of reference or availability of books, we will find that there are
lack of books with current titles although some would prefer books that have mobility
and easy access. Hence, everything that can be found on print can easily be found on
the Internet. In fact, creative learning in classroom incorporates the use of multi
channels of technology yields a pervasive knowledge or that is more productive and
enriched learning environment.
We also interviewed teacher who used Web 2.0 as OLR. He used Schoology in 2014,
a web-based Learning Management System (LMS) with 200 students. The initial aim
of using the LMS was to have a medium to share notes with the students. The reason to
use Schoology was because the system has similar features with Facebook, where
students are familiar with. After few months using it, because of the vast features of the
system, he did not only use the system for sharing notes, but also for giving assignment,
grading their work, taking attendance and giving them online discussion. The students’
comments were that they found it easier to use as it is similar to Facebook.
Furthermore, its application can be downloaded and installed in their smart phones.
Instead of printing their notes, they have used it to view their notes. They also used it
for saving their work as it also acts as online storage. One of the main reasons students
like the system is that they can view the notes from anywhere and anytime they want.
Due to inflexibility of the systems, a school and university need to set up a new
mechanism whereas the e-learning systems should allow flexibility in term of a context
of technology like cloud computing and Web 2.0 but also a content of knowledge that is
pervasive knowledge acquisition. Concerning with the context of technology, many
universities are dependent on infrastructures and closed systems approach that is hardly
to manage and maintain for future need. Inflexibility over resources can create uncer-
tainty for an organization to respond in changes. Thus, an organization must develop
ways to exploit these resources (Table 1).
One of the important advantages of pervasive knowledge system is organizations do
not need to invest extensive ICT infrastructures in order to deliver teaching and
learning. For instance, e-learning can be managed by outsourcing of ICT resources,
1672 Educ Inf Technol (2016) 21:1663–1677
11. which are readily available in the cloud so that the school or university focus on core
functions of teaching, learning, and research. The idea of utilizing cloud computing is
in parallel with the recent trend of workflow models characterized by the concept of
Web 2.0. Cloud computing offers simplicity in delivering mobile contents as it runs the
services in on-demand basis with minimum maintenance. Introducing Web 2.0 in
pervasive knowledge can be expanded to incorporate the students’ capability not only
to receive but also to generate information. Web 2.0 has energized students to have
better control of information flows in e-learning systems especially in generating
contents in social network interactions.
Figure 3 shows the model of pervasive knowledge system with features of social
networks, big data analytic, and cloud computing approach. Web 2.0 has enabled
students to dynamically enrich their personalized information. Traditionally students
have relied solely on static information provided by service provider. However, they are
now being empowered with the ability to conduct conversations with other students to
share and exchange experiences through discussions in their social networks.
In addition, pervasive knowledge enriches their knowledge through Semantic Web
and an acquisition that is incorporated through cloud computing. Pervasive knowledge
offers students to have a greater role in active learning process as they are empowered
with the ability to control and generate flow of information that fits with their
personalized needs. Pervasive knowledge is proposed to enhance all actors in the
systems (students, tutors, management, etc.) to acquire content’s rich of knowledge
from various channels that is relevant per subject basis. Pervasive knowledge allows
users to bring their data with them and mobile from one service to another. The concept
Table 1 Conventional generating knowledge and pervasive knowledge. Source: authors’ compilation
Type Conventional Pervasive knowledge
School or University needs
extensive IT Source &
Infrastructure
Yes (development, procurement,
maintenance, update system/
technology)
Not necessary
Risk & Responsibility Internal within University
(organization)
Cloud Service Provider
Offer Specialized (Extra)
Service
Possible if there is specialist (i.e.,
security) staff internal
Yes, mostly they have dedicated staff
for specialized (extra) service.
Process and Behaviour Possible to change with more effort
from the beginning
Dynamic (when technology or users’
the demand change easily deploy)
Costing Development, machines,
maintenance
Pay only the service
(Cloud Computing)
Perception Complete modules but complicated User friendly, easy to navigate and
use
Knowledge Acquisition Limited access of knowledge
providers
Rich contents from multi-channels
of interactions and knowledge
sources
Platform Web Syntax Web 2.0, Semantic Web, and Big
Data
Sources of knowledge Structured data sources Structured and unstructured data
sources (Big Data)
Educ Inf Technol (2016) 21:1663–1677 1673
12. of pervasive knowledge in the model is to enable multi-channel knowledge that is
available in Internet brought by Application as a Service in cloud computing to the
users so that learning experience in teaching and learning are richer due to compre-
hensive knowledge acquisition.
Big data in pervasive knowledge is new challenge in integrating various knowledge
sources to become value added for users (teachers, and students). Big data analyses
multiple data to recognize any patterns or trends. This cannot be done with old
methods. This is due to its capabilities to gather data at an immense speed and able
to distinguish the value of the data. When big data is captured, formatted, stored and
analysed it actually can help a school and university to gain useful insight to pervasive
knowledge acquisition and improve operation especially to users as more data may lead
to more analyses that are accurate. In addition, big data is known as the fourth
generation of computing (Watson 2014, p. 1247) due to the growth and evolution of
technology, big data extends its capacity in terms of volume, velocity, and variety.
Big data provides contents from structured and unstructured sources have a stronger
decision-making strength, discovery process optimization and capabilities, high growth
and diversified pervasive knowledge acquisitions. For example, at the education
institutions, just by capturing, examining or analysing every conversation by the
students at social networks, it helps to reveal the conditions of students’ interest and
capture knowledge sharing. Value creation is the focus on creating value from data and
definitely important for creating pervasive knowledge system.
Furthermore, Semantic Web supports cloud service provider in delivering pervasive
knowledge to users. Semantic web can link information across different online sources
to form comprehensive knowledge to support synchronous lecture, asynchronous
study, online consultation, knowledge sharing in social networks. The model proposes
implementation of Semantic Web and cloud computing for the approach in pervasive
knowledge acquisition because we sometimes need new implementations to adapt.
Instead of the organization is focusing on developing internal ICT resources in
Fig. 3 Proposed framework of pervasive knowledge. Source: authors’ compilation
1674 Educ Inf Technol (2016) 21:1663–1677
13. generating knowledge, the organization can consider strengthening knowledge and
contents through Semantic Web. In addition, cloud computing is able to bypass and
significantly reduce the amount of time, money, and resources required from the ICT’s
dependencies.
Finally, there is no single solution fits for all scenarios, teaching and learning
organization should carefully decide at which direction that the institution is going to
upgrade for online learning system before understanding the needs of users towards the
systems. This study triggers research directions that online learning can embed perva-
sive knowledge multiple sources like social networks big data, and semantic web
through the support of cloud computing is key to competitive advantage. The concept
of pervasive knowledge opens a new opportunity to maximize the potential of re-
sources knowledge into online learning system. Pervasive knowledge is not only from
social networks generated data but also they can become data source that is voluntarily
generated by students. While, big data is huge data sources from multi types that can be
integrated into huge and relevant knowledge resources. Though, there are always
challenges for the realisation of value added from pervasive knowledge in online
learning, further research is important to configure its feasibilities.
5 Conclusion
The advancement of ICT applied to learning systems is changing the sources of online
learning materials, with students getting more control of their learning experience. Big
data, social networks, and cloud computing are required to address and integrate current
discoveries into pervasive learning experience. Educational institution needs to develop
strategies that will allow them to acquire multi channels of knowledge and OLR known
as pervasive knowledge. The model of pervasive knowledge accommodates the fea-
tures of social networks, big data, and cloud computing approach. OLR through
pervasive knowledge can extend advancing technology to gain control of their benefits.
In fact, OLR at education institution should allow flexibility in term of a context of
technology like cloud computing and Web 2.0. Cloud Computing runs the services in
on-demand basis with minimum maintenance. Web 2.0 can be expanded to incorporate
the students’ abilities to generate contents of knowledge. Big data in pervasive knowl-
edge integrates various knowledge sources to become value added for users (teachers,
and students). Finally, the paper triggers research directions that OLR can be embedded
of multiple sources like social networks, big data, and semantic web through the
support of cloud computing in order to achieve competitive advantage and pervasive
knowledge.
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