Developing sustainable business models for institutions’ provision of open educational resources: Learning from OpenLearn users’ motivations and experiences

Universities across the globe have, for some time, been exploring the possibilities for achieving public benefit and generating business and visibility through releasing and sharing open educational resources (OER). Many have written about the need to develop sustainable and profitable business models around the production and release of OER. Downes (2006), for example, has questioned the financial sustainability of OER production at scale. Many of the proposed business models focus on OER’s value in generating revenue and detractors of OER have questioned whether they are in competition with formal education. This paper reports on a study intended to broaden the conversation about OER business models to consider the motivations and experiences of OER users as the basis for making a better informed decision about whether OER and formal learning are competitive or complementary with each other. The study focused on OpenLearn - the Open University’s (OU) web-based platform for OER, which hosts hundreds of online courses and videos and is accessed by over 3,000,000 users a year. A large scale survey and follow-up interviews with OpenLearn users worldwide revealed that university provided OER can offer learners a bridge to formal education, allowing them to try out a subject before registering on a formal course and to build confidence in their abilities as learners. In addition, it was found that using OER during formal paid-for study can improve learners’ performance and self-reliance, leading to increased retention and satisfaction with the learning experience

Open educational resources for all? Comparing user motivations and characteristics across The Open University’s iTunes U channel and OpenLearn platform.

With the rise in access to mobile multimedia devices, educational institutions have exploited the iTunes U platform as an additional channel to provide free educational resources with the aim of profile-raising and breaking down barriers to education. For those prepared to invest in content preparation, it is possible to produce interactive, portable material that can be made available globally. Commentators have questioned both the financial implications for platform-specific content production, and the availability of devices for learners to access it (Osborne, 2012). The Open University (OU) makes its free educational resources available on iTunes U and via its web-based open educational resources (OER) platform, OpenLearn. The OU’s OER on iTunes U reached the 60 million download mark in 2013; its OpenLearn platform boasts 27 million unique visitors since 2006. This paper reports the results of a large-scale study of users of the OU’s iTunes U channel and OpenLearn platform. A survey of several thousand users revealed key differences in demographics between those accessing OER via the web and via iTunes U. In addition, the data allowed comparison between three groups: formal learners, informal learners and educators. The study raises questions about whether university-provided OER meet the needs of users and makes recommendations for how content can be modified to suit their needs. As the publishing of OER becomes core to business, we reflect on reasons why understanding users’ motivations and demographics is vital, allowing for needs-led resource provision and content that is adapted to best achieve learner satisfaction, and to deliver institutions’ social mission

Innovating Pedagogy 2015: Open University Innovation Report 4

This series of reports explores new forms of teaching, learning and assessment for an interactive world, to guide teachers and policy makers in productive innovation. This fourth report proposes ten innovations that are already in currency but have not yet had a profound influence on education. To produce it, a group of academics at the Institute of Educational Technology in The Open University collaborated with researchers from the Center for Technology in Learning at SRI International. We proposed a long list of new educational terms, theories, and practices. We then pared these down to ten that have the potential to provoke major shifts in educational practice, particularly in post-school education. Lastly, we drew on published and unpublished writings to compile the ten sketches of new pedagogies that might transform education. These are summarised below in an approximate order of immediacy and timescale to widespread implementation

Integrating Technology With Student-Centered Learning

Reviews research on technology's role in personalizing learning, its integration into curriculum-based and school- or district-wide initiatives, and the potential of emerging digital technologies to expand student-centered learning. Outlines implications

Untethered Learning: A Mixed Methods Study of Mobilized Adventure Learning

textMobile technologies now afford unprecedented opportunities, resources, and possibilities for learning. Among them, is the opportunity for students to engage in hands-on, out-of-classroom learning activities such as Adventure Learning. Since 2007, Adventure Learning has developed as an educational framework for using information and communication technologies to connect learners with expeditionary teams where video-based communication provides a sense of adventure for learners. The study was conducted in a public high school where an Environmental Science teacher used mobile learning technologies to create Adventure Learning projects where students participated both fin the classroom and as members of an “expeditionary team.” It was also intended to examine both the benefits and challenges in implementing ubiquitous mobile technologies in the field, combined with the use of student-centered pedagogies in their classrooms. The major questions of the study asked how did a teacher leverage mobilized Adventure Learning to design learning activities? And how did active participation in a mobilized Adventure Learning project affect student interest in the subject of Environmental Science? The study involved examining the ways the teacher leveraged the affordances of mobile technologies to create a hands-on, collaborative, and Adventure Learning environments outside of the classroom. The hands-on learning activities were designed to enable students to gather first-hand information related to environmental science. Subjects in the study included a high school Environmental Science teacher along with 104 participating students. Using a mixed methods approach, qualitative data were gathered through observations of learning activities, interviews and focus groups and artifacts. Quantitative data were gathered through surveys administered to the students before and after the treatment. The results indicated that, contrary to the teacher’s expectations, students indicated a preference for learning through book and lecture rather than hands-on discovery of information in both pre and post treatment surveys. Results of the study also demonstrated differences in learning preference relating to percentage of students participating in field-based, hands-on learning activities or in lecture-book classroom learning activities. Recommendations for future research and for educational practice are offered. Limitations of the study include the small sample size and short time duration of the study.Curriculum and Instructio

Imssap: after-school interactive mobile learning student support application

06.03.2018 tarihli ve 30352 sayılı Resmi Gazetede yayımlanan “Yükseköğretim Kanunu İle Bazı Kanun Ve Kanun Hükmünde Kararnamelerde Değişiklik Yapılması Hakkında Kanun” ile 18.06.2018 tarihli “Lisansüstü Tezlerin Elektronik Ortamda Toplanması, Düzenlenmesi ve Erişime Açılmasına İlişkin Yönerge” gereğince tam metin erişime açılmıştır.Bu araştırmada, dünya çapında m-öğrenme geliştirme sürecine giriyoruz. M-öğrenme aracımızı tasarlarken sosyal ve pedagojik faktörler kullanılmaktadır. Popülerlik odaklı bir kültürde, kullanıcılar arasındaki etkileşim tartışmaları zenginleştirir ve bilgi paylaşımını teşvik eder. Uygulama android yazılım geliştirme seti ve java programlama dili kullanılarak tasarlandı ve oluşturuldu. Google bulut depolama, verileri kaydetmek için gerçek zamanlı bir veritabanı altyapısı kullanıldı. Test ve geribildirim için Sakarya Üniversitesi, Türkiye. Anket tanıtılmadan önce, öğrenme sürecinin kavramı tartışılmıştır. Uygulamayı kullandıktan sonra, öğrenciler anketi cevapladılar. Anket üç ana noktayı yansıtıyordu: performans, kazanç ve mobil öğrenmenin kabulünü etkileyen sosyal faktörler. Popülerlik, öğrencileri mobil öğrenmeyi benimsemeye teşvik eden en önemli faktörlerden biridir. Anahtar Kelimeler: mühendislik, eğitim, etkileşimli yazılım, sınıf gösterimi, lisans eğitimi.In this research, we are engaging in the process of developing m-learning around the world. Social and pedagogical factors are being used while designing our m- learning tool. In a popularity-driven culture, interaction between users enriches discussions and promotes knowledge share. The application was designed and created using android software development kit and java programming language. Google cloud storage a real-time database infrastructure was used to save data. The application was offered to students in different majors in engineering departments in Sakarya University, Turkey, for testing and feedback. Before conducting the questionnaire we introduced mobile learning concept to students and explained its importance in their own learning process. After using the application, students answered the questionnaire. The questionnaire reflected three major points: performance, gain and the social factors effecting mobile learning acceptance. Popularity is one of the top factors that motivated learners to adopt mobile learning. Keywords: Engineering, Education, Interactive Software, classroom Demonstration, Undergraduate Education

Preparing students for the software industry new demands

A solid preparation in terms of soft skills and state- of-the-art technical skills in Software Engineering (SE) is a goal for the academy. It also contributes to reducing the gap between Software Engineering education and the software industry's new demands. Generally, in computer science or computer engineering courses, there are separate subjects to teach requirements engineering, analysis, design, coding, or validation. However, integrating all these subjects usually requires experience in developing a complete project. This article describes aspects of an active and collaborative learning approach involving academia and industry actors. The approach presented in this article involved staff from a software company in collaboration with staff from an academic institution. It resulted in a student being involved in an entire software development project. The student was involved in an agile team of faculty and Information Technology (IT) professionals. The Scrum agile framework was followed, and the product was developed using a Low-code development platform. This article presents the approach, details of the project design and implementation, results achieved, lessons learned, and guidelines for the future. The results show that this agile, full-stack approach allows students to develop cutting- edge technical and non-technical skills.info:eu-repo/semantics/publishedVersio