Browsing by Author "Stretton T"
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- ItemAnalysing mobile learning designs: A framework for transforming learning post-COVID(ASCILITE, 2022) Cochrane T; Narayan V; Aiello S; Alizadeh M; Birt J; Bone E; Cowie N; Cowling M; Deneen C; Goldacre P; Sinfield D; Stretton T; Worthington TMobile learning is well established in literature and practice, but under-evolved from a rigorous learning design perspective. Activity theory presents a sophisticated way of mapping and understanding learning design, but for mobile learning this does not always translate into change in practice. The reported research addresses this by coupling a mobile learning specific approach to activity theory with a practice-based framework: the design for transformative mobile learning framework mapped to the pedagogy-andragogy-heutagogy continuum matrix (the DTML-PAH Matrix). Seven case studies are analysed using this approach and presented narratively along with framework informed analysis. Findings include that the DTML-PAH Matrix can be used to provide clearer implications and guidance for mobile learning practice, and that the DTML-PAH Matrix can also be guided by the practice over time. Implications for further research and practice are discussed. Implications for practice or policy: Provide technological and pedagogical scaffolds to students. Learning designs should focus upon enabling elements of learner agency and creativity. To develop learning solutions to real world problems utilise a design-based research approach. Create authentic collaborative learning activities and tasks. Integrate mobile learning affordances in the design of the course and curriculum.
- ItemAuthentic interprofessional health education scenarios using mobile VR(Association for Learning Technology, 2018) Cochrane T; Stretton T; Aiello S; Britnell S; Cook S; Narayan VThis paper explores the use of mobile virtual reality (mVR) to create authentic learning environments for health education, initially in three contexts, followed by the development of collaborative health team scenarios that mirror professional practice. The use of mVR mitigates the dispersion of the university’s seven health departments across three geographical campuses. We argue that the use of mVR provides an immersive and authentic student experience of real-world medical team scenarios. Building upon our experiences we critique the development of design principles for the integration of mVR within the curriculum and the establishment of a socio-cultural ethos of collaboration across the seven health disciplines at the institution. The unique contribution of our methodology is the focus upon a low-cost rapid user-generated development model explicitly founded upon design-based research, supported by a transdisciplinary team, modelling interprofessional practice.
- ItemExploring mobile mixed reality in healthcare higher education: A systematic review(Association for Learning Technology, 2018) Stretton T; Cochrane T; Narayan VBackground: The evolution of technology and simulation has had a significant impact on clinical education. However, it remains grounded in traditional teaching paradigms, limiting potential for enhanced learning. Furthermore, the impact of mixed reality enabled mobile devices remains underexplored. Purpose: The aim of this article was to investigate mobile learning and mixed reality in healthcare higher education. Method: A search of six databases from the earliest available date to 30 February 2018 and a hand search of journals and included studies was performed. Inclusion criteria focused on ‘healthcare’, ‘higher education’, ‘mobile learning’ and ‘mixed reality’. All study designs were included, though they were limited to the English language. The checklist of the Preferred Reporting Items for Systematic Reviews and Meta-Analysis was used as a framework for the review, with included studies critiqued using the mixed methods appraisal tool. Results: The search generated 1484 studies, with 18 meeting inclusion criteria. The majority of studies utilised mobile mixed reality (mMR) for teaching procedural skills with established mobile platforms; anatomy; and clinical assessment. mMR demonstrated benefits in skill competency and knowledge scores when compared to control. Users were favourable towards future use of mMR. Conclusion: While mMR successfully delivered some clinical skills; the pedagogical impact of engagement with higher order clinical reasoning remains a challenge for future studies.
