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Thinking about Blended Learning

Thinking about Blended Learning. Diana Laurillard. The global demand for education. B y 2025, the global demand for higher education will double to ~200m per year , mostly from emerging economies (NAFSA 2010 ) 1,600,000 new teaching posts needed for universal primary education by 2015.

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Thinking about Blended Learning

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  1. Thinking about Blended Learning Diana Laurillard

  2. The global demand for education By 2025, the global demand for higher education will double to ~200m per year, mostly from emerging economies(NAFSA 2010) 1,600,000 new teaching posts needed for universal primary education by 2015. 3,300,000 new teachers by 2030 (UNESCO 2013) Student loan debt in US is higher than CC debt so students will demand new models of teaching and learning Can we use technology to reduce the current staff:student ratios of higher education and maintain quality?

  3. The overall programme aim From blended to open learning? Internet and ICT in Flemish Higher Education: - the purpose of which is the development of a systemic vision on the optimal exploitation of ICT and internet for the new learning of the 21st century and to provide an alternative perspective aiming at formulating long term policy objectives.

  4. 10 Discussion items on Blended Learning 1. How will blended learning change HE on campus (BA, MA)? 2. Blended learning and the teacher 3. The evaluation, exams and assessment challenge 4. Open and distance learning - Lifelong learning 5. Blended learning and the institution 6. Inter institutional networking (national, European and global) 7. MOOCs 8. Implications for interaction with secondary /primary education 9. Role of government and official bodies 10. Potential for development cooperation

  5. Blended, Online and Open Learning Blended Blends online and f2f for campus students Online Online only, anywhere Dual mode Blended + equivalent online Open Online with open entry (OU, MOOCs) • Online learning offers opportunity of high fixed costs and low support costs to improve per-student cost • Teaching costs must be carefully managed and planned • Learning benefits must be designed and evaluated • Technology use should start from problems, not solutions

  6. HE problems and Technology solutions Problems we know we have • Transition to HE is poor for many students • Demand for quality HE cannot be met on the current model • Employers dissatisfied with graduate skills • Academics interested in research rather than teaching • Students have a digital life untapped by their HE course • Alumni need flexible continuing professional development • Assessment does not motivate the learning needed • Students lack motivation and independence in learning Potential technology solutions • Extend access to HE ICT resources and activities to schools • Use large-scale cascade online courses model to reach out • Use online collaboration to enable employers to influence curriculum • Link teaching to online research methods • Use online student collaboration for sharing digital learning ideas • Extend access to HE ICT resources and activities to alumni • Use tech to update assessment as automated and more challenging • Include digital tools for students to do inquiry, practice, discussion, collaboration, production Problems we know we have • Transition to HE is poor for many students • Demand for quality HE cannot be met on the current model • Employers dissatisfied with graduate skills • Academics interested in research rather than teaching • Students have a digital life untapped by their HE course • Alumni need flexible continuing professional development • Assessment does not motivate the learning needed • Students lack motivation and independence in learning

  7. Models of online learning?

  8. The MOOC as ‘large-scale’ pedagogy Average student numbers per course - Edinburgh 51500 20500 15000 27% 6000 5500 Completed = 27% of ‘starters’ MOOCs @ Edinburgh 2013 – Report #1

  9. The MOOC as ‘large-scale’ pedagogy Average student numbers per course - UoL 53250 23367 17275 11377 9592 9% 7730 6747 2211 Completed = 9% of ‘starters’ MOOC Report 2013: University of London

  10. The MOOC as undergraduate education Not for undergraduates 70% have degrees 40% 30% 17% 10% 3% Enrolled students MOOCs @ Edinburgh 2013 – Report #1

  11. The MOOC as undergraduate education Not for undergraduates 4% 68% have degrees 29% 35% 8% 11% 8% 3% Enrolled students MOOC Report 2013: University of London

  12. The MOOC as undergraduate education 85% have degrees MOOCs: Higher Education’s Digital Moment? 2013: UUK

  13. The economics of teaching and learning in HE Preparation of curriculum and resources Fixed cost Adaptive systems: field trips, lab sessions, simulations, models Expositions: lectures, study guides, slides, podcasts, videos Formative assessment: feedback from peers, digital systems Readings: books, papers, websites, pdfs Collaborations: projects, workshops, role play simulations, wikis Peer group discussion: seminars, discussion forums Formative assessment: tutor feedback offline, feedback online Tutored discussion: tutorials, small groups, discussion forums Summative assessment: exams, essays, designs, performance Support for students learning Variable cost

  14. Pedagogies for supporting large classes Concealed MCQs The (virtual) Keller Plan The vicarious master class Pyramid discussion groups Conceal answers to question Ask for user-constructed input Show multiple answers/comments Ask student to improve answer Introduce content Self-paced practice Tutor-marked test Student becomes tutor for credit Until half class is tutoring the rest 240 individual students produce response to open question Pairs compare and produce joint response 60 groups of 4 compare and produce joint response and post as one of 10 responses... 6 groups of 40 students vote on best response Teacher receives 6 responses to comment on Tutorial for 5 representative students Questions and guidance represent all students’ needs

  15. What it takes to teach with technology The teaching workload is increasing in terms of Planning for how students will learn in the mix of the physical, digital and social learning spaces designed for them Curating and adapting existing content resources Designing activities and resources for all types of active learning Personalised and adaptive teaching that improve traditional methods Providing flexibility in blended learning options Guiding and nurturing large cohorts of students Using learning technologies to improve scale AND outcomes BUT: Institutions and teachers do not typically plan for the teaching workload implied by these learning benefits nor for the need to collaborate to innovate with technology

  16. The design cycle for teaching Build on others’ tested designs ?? Make links to existing content resources Building teaching community knowledge

  17. The design cycle for science What is the teaching design equivalent of the journal paper? Building scientific knowledge

  18. A tool for learning design: browsing

  19. The Learning Designer: Adopt (interpreting Tudor portraits) Details of: learning context, topic, aims, outcomes, student numbers, duration Details of the pedagogy: types of learning activity, group size, teacher presence, attached urls, duration, student guidance Analysis of the learning experience calculated dynamically

  20. The Learning Designer: Adapt (experimental design for Psychology) Note the designed time is much greater than the allotted time Every section of the learning design can be edited, and new resources attached Share to submit for review Analysis of the learning experience adapts to your edits

  21. The Learning Designer: Review (Business planning for engineers) Reviewer Feedback Notes for additional comments Reviews and comments could be student evaluations Additional pane for Reviewer to add comments according to criteria ‘Test of outcome? Alignment? Feedback? Technology?

  22. Teaching as a design cycle Question: What is the teaching design equivalent of the journal paper? Answer: A learning design that can be reviewed, adapted, improved, published, reused… Building learning technology knowledge

  23. Balancing the benefits and costs It’s important to understand the link between the pedagogical benefits and teaching time costs of online learning – especially for the large-scale What are the new digital pedagogies that will address the 1:25 student guidance conundrum? How to shift variable cost support to fixed cost support? Can we develop a viable business model that will make HE more effective and affordable for undergraduates?

  24. Analysing teacher workload (the Course Resource Appraisal Model CRAM) Details of: credit hours, cohort size, income, teacher costs, types of learning and teaching, online and f2f, time for prep and for support Run No. of students Run 1 15 Run 2 20 Run 3 20 Learning experience Teacher preparation time Teaching support time

  25. Analysing teacher workload (the Course Resource Appraisal Model CRAM) • Run 1 Run 2 Run 3 • Students 15 20 20 • Profit -£27k £4k £11k • Run 1 Run 2 Run 3 • Students 15 30 60 • Profit -£27k £11k £38k

  26. Analysing workload for a Basic MOOC (the Course Resource Appraisal Model CRAM) • Run 1 Run 2 Run 3 • Students 2000 2000 2000 • Profit £21k £35k £35k Assuming £20 (?) income for Signature Track What if only 500 complete? • Run 1 Run 2 Run 3 • Students 500 500 500 • Profit -£9k £5k £5k

  27. What does it mean for our online courses? • The high visibility teaching in MOOCs will improve the presentation quality of UG and PG courses • The need to design well-orchestrated groups and peer support activities will promote pedagogic innovation and better VLE functionality • We can improve the variable costs of teaching support if we explore methods like • pyramid collaboration groups: from many students to few outputs for tutors to inspect • cascaded tutor: from one teacher to many tutors • vicarious master class: from one small group to all • They will only flourish if we demand, and get, improved pedagogic design functionality on VLE platforms THEN perhaps UG/PG education can achieve high quality and reach that is more affordable

  28. What does this mean for the future of blended learning? • We need large student numbers to offset the high production costs of the ‘flipped classroom’ (and high visibility teaching) • We must understand the variable costs of teaching support, as scaling up UG/PG teaching could be unmanageable • Our current CPD model fits the MOOC pedagogy: • Good presentation of latest thinking and ideas • Peer discussion, debate, exchange, and challenge • Certification of attendance

  29. What might we do? A systemic approach • Build a learning system: legitimise, incentivise, fund the lecturers to take innovative pedagogy as a part of their professionalism • Engage the whole community in the current educational challenges - What are they?– and how technology can help. • Fund the leading innovators (activist groups) to develop and share, and the leading followers to adopt then lead • Fund further development of a pedagogically sound online platform – beyond current functionality – lecturers specify • Launch a project on the modelling of high quality, large scale, flexible, affordable HE

  30. Timeline and milestones to enable all departments/universities to integrate ICT in a sustainable way Phase 4: 2017-19 Phase 3: 2016-17 Phase 2: 2015-16 Phase 1: 2014-15

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