A conceptual framework for cloud-based collaborative online course provision.

The number of online courses offered worldwide by higher education institutions has been growing rapidly. There are a number of challenges and issues that may affect online course delivery and student learning such as the experience of academic staff and students with online courses, design of course structure, creation of suitable teaching resources, and the study culture. Collaboration between universities for the design and delivery of online courses can have many benefits. They include enriched educational culture, fostering of a collaborative environment, resource sharing, cost reduction, and enhanced quality of courses. Cloud computing can support collaborative environments due to its flexibility, scalability, reliability, availability and mobility, resulting in reduced IT costs. It can provide easy access to resources for both students and university staff. A mixed methods research approach was adopted to collect the views of academics and students with respect to cloud-based collaborative online course provision. Semi- structured interviews were conducted with academics from different universities to explore the issues associated with the cloud-based collaborative online course environment. Two questionnaires collected the views of both academics and students in greater depth from a wider perspective. A number of challenges and issues were identified for consideration and incorporation into a cloud-based framework for a collaborative environment. Such issues related to security, confidentiality, ownership, contract agreement, quality assurance, finance, culture and course development. These issues and others were grouped together into five elements, which are quality, legal, security, operation and education. A novel conceptual framework for a cloud-based collaborative environment was developed, which is based on five main elements, illustrating the relationship between them. A prototype was developed to test parts of the framework to illustrate some of its concepts and its utilisation in a collaborative environment. The framework and the prototype were evaluated by practitioners. The analysis of the views illustrated the appropriateness of the framework structure, grouping of the elements, relationship between the elements and the issues associated with each element

Cloud services, interoperability and analytics within a ROLE-enabled personal learning environment

The ROLE project (Responsive Open Learning Environments, EU 7th Framework Programme, grant agreement no.: 231396, 2009-2013) was focused on the next generation of Personal Learning Environments (PLEs). A ROLE PLE is a bundle of interoperating widgets - often realised as cloud services - used for teaching and learning. In this paper, we first describe the creation of new ROLE widgets and widget bundles at Galileo University, Guatemala, within a cloud-based infrastructure. We introduce an initial architecture for cloud interoperability services including the means for collecting interaction data as needed for learning analytics. Furthermore, we describe the newly implemented widgets, namely a social networking tool, a mind-mapping tool and an online document editor, as well as the modification of existing widgets. The newly created and modified widgets have been combined in two different bundles that have been evaluated in two web-based courses at Galileo University, with participants from three different Latin-American countries. We measured emotional aspects, motivation, usability and attitudes towards the environment. The results demonstrated the readiness of cloud-based education solutions, and how ROLE can bring together such an environment from a PLE perspective

Cloud services within a ROLE-enabled Personal Learning Environment

The ROLE project (Responsive Open Learning Environments) is focused on the next generation of Personal Learning Environments (PLE). In this paper, we first describe the engineering process used to create either a new widget bundle, a group of applications or service widgets. The widgets integrated in a ROLE PLE consist of two cloud-based services, a social networking and a mind-mapping tool, where learners can perform and collaborate on learning activities. We also modified other widgets to create a complete learning experience. The whole platform is running on a cloudcomputing infrastructure and one of the services is using a cloud-based database. Additionally, we describe the initial experiences from using this cloud education environment in Galileo University, Guatemala, in a web-based course with students from three different Latin-American countries. We measured emotional aspects, motivation, usability and attitudes towards the environment. The results demonstrated the readiness of cloud-based education solutions, and how ROLE can bring together such an environment from a PLE perspective

Cloud-Based Collaborative 3D Modeling to Train Engineers for the Industry 4.0

In the present study, Autodesk Fusion 360 software (which includes the A360 environment) is used to train engineering students for the demands of the industry 4.0. Fusion 360 is a tool that unifies product lifecycle management (PLM) applications and 3D-modeling software (PDLM—product design and life management). The main objective of the research is to deepen the students’ perception of the use of a PDLM application and its dependence on three categorical variables: PLM previous knowledge, individual practices and collaborative engineering perception. Therefore, a collaborative graphic simulation of an engineering project is proposed in the engineering graphics subject at the University of La Laguna with 65 engineering undergraduate students. A scale to measure the perception of the use of PDLM is designed, applied and validated. Subsequently, descriptive analyses, contingency graphical analyses and non-parametric analysis of variance are performed. The results indicate a high overall reception of this type of experience and that it helps them understand how professionals work in collaborative environments. It is concluded that it is possible to respond to the demand of the industry needs in future engineers through training programs of collaborative 3D modeling environments

FOTE 2008 Conference Report

A report prepared by JA.Net and ULCC about the Future of Technology in Education (FOTE 2008) conference, Imperial College, 3rd October 2008. It covers the main speakers, themes and presentations: Cloud Computing, Second Life, Portability, Personalisation, Shared Services, Campus of the Future, Mobile Technology, Creativity and Media Production, Social Collaboration Tools for Staff and Students

A literature review of the use of Web 2.0 tools in Higher Education

This review focuses on the use of Web 2.0 tools in Higher Education. It provides a synthesis of the research literature in the field and a series of illustrative examples of how these tools are being used in learning and teaching. It draws out the perceived benefits that these new technologies appear to offer, and highlights some of the challenges and issues surrounding their use. The review forms the basis for a HE Academy funded project, ‘Peals in the Cloud’, which is exploring how Web 2.0 tools can be used to support evidence-based practices in learning and teaching. The project has also produced two in-depth case studies, which are reported elsewhere (Galley et al., 2010, Alevizou et al., 2010). The case studies focus on evaluation of a recently developed site for learning and teaching, Cloudworks, which harnesses Web 2.0 functionality to facilitate the sharing and discussion of educational practice. The case studies aim to explore to what extent the Web 2.0 affordances of the site are successfully promoting the sharing of ideas, as well as scholarly reflections, on learning and teaching

Media Culture 2020: collaborative teaching and blended learning using social media and cloud-based technologies

The Media Culture 2020 project was considered to be a great success by all the partners, academics and especially the students who took part. It is a true example of an intercultural, multidisciplinary, blended learning experience in higher education that achieved it goals of breaking down classroom walls and bridging geographical distance and cultural barriers. The students with different skills, coming from different countries and cultures, interacting with other enlarges the possibilities of creativity, collaboration and quality work. The blend of both synchronous and asynchronous teaching methods fostered an open, blended learning environment, one that extended the traditional boundaries of the classroom in time and space. The interactive and decentralized nature of digital tools enabled staff and students to communicate and strengthen social ties, alongside participation in the production of new knowledge and media content. For students and lecturers, the implementation of social media and cloud platforms offered an innovative solution to both teaching and learning in a collaborative manner. By leveraging the interactive and decentralised capabilities of a range of technologies in an educational context, this model of digital scholarship facilitates an open and dynamic working environment. Blended teaching methods allow for expansive collaboration, whereby information and knowledge can be accessed and disseminated across a number of networked devices

A 'likely benefit' from aligning Web 2.0 technologies with an institutions learning and teaching agenda

This paper demonstrates a ‘likely benefit’, and a practical view of expected challenges, when incorporating Web 2.0 technologies in a contemporary higher education context. After first exploring which factors potentially influence a shift in thinking about learning and teaching in a Web 2.0 context this paper then addresses the important role, or the affordance, of an integrated Learning Management System (LMS) and the pedagogical applications of Web 2.0 technologies. It then uses a series of case study from the University of Southern Queensland, a large distance education provider in Australia, to support these propositions. Overall, this paper suggests that the goals and ideals of Web 2.0/ Pedagogy 2.0 can be achieved, or at least stimulated, within an institutional LMS environment, as long as the LMS environment is aligned with these ideals

Collaborative pedagogy and digital scholarship: a case study of 'Media Culture 2020'

This paper presents an educational case study of ‘Media Culture 2020’, an EU Erasmus Intensive Programme that utilised a range social media platforms and computer software to create open, virtual spaces where students from different countries and fields could explore and learn together. The multi-disciplinary project featured five universities from across Europe and was designed to develop new pedagogical frameworks to encourage collaborative approaches to teaching and learning in the arts. The main objective of the project was to break down classroom and campus walls by creating digital learning environments that facilitated new forms of production, transmission and representation of knowledge. Media Culture 2020 was designed to pilot a novel mode of ‘blended learning’, demonstrating a number of ways in which ‘Web 2.0’ networked technologies might be adopted by academics to encourage open and collaborative modes of practice. The project utilised a number of social media platforms (including Facebook, Twitter, Google+, Google Hangout, Google Docs and Blogger) to enhance the learning experiences of a diverse set of students from different cultural and international contexts. In doing so, Media Culture 2020 enabled participants with a diverse range skills and cultural experiences to develop new working practices that respond to the convergence of digital media and art, as well as the internationalisation of media production and business, through the use of open, interactive software