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Our research explored the ways the emerging Semantic Web can support teaching and learning. It identified case based learning as a key area and outputs were used to enhance the unique research council funded Economic and Social Data Service public collections and pioneers pages. Results informed the thinking of accountancy bodies on e-assessment via the Association of Chartered Certified Accountants/International Association for Accounting Education. An exemplary user case study derived from the research was selected by World Wide Web Consortium (W3C). The research supported the aggregation and presentation of Open Educational Resources via JISC. Project software and documentation was released as open source. Outcomes provided the `Liverpool, City of Radicals' Project timeline.
Lack of interoperability can leave educational material, e-portfolios and course information locked into proprietary systems. This not only limits freedom of choice, it also blocks collaboration. IEC's work in educational technology interoperability standards has addressed this issue internationally by leading on the development of open formats for educational material (IMS Content Packaging), online assessment material (IMS Question and Test Interoperability), e-portfolios (Leap2a) and course information (eXchanging Course Related Information). The adoption of these specifications means that students can move their e-portfolios, course information can be shared, educational content can be exchanged between VLEs, and large assessment infrastructure projects are enabled.
With computing science in schools and universities suffering from an international education crisis, University of Glasgow research has driven the development of new school curriculum across the UK. The learning and teaching materials developed at Glasgow rethink the way computing science is taught, with over 10,000 pupils taking part in workshops in Scotland and 1,600 teachers in 20 countries using the materials. In the US, this research has attracted 20 high schools and 2,000 university students into programmes demonstrating new methods in teaching computational thinking. Dr Quintin Cutts has also contributed to the Scottish Qualifications Authority's assessments for the new Scottish curriculum, consulting on assessment techniques and nationwide Computing Science exam papers.
Research by the University of Nottingham's Education and Technology for Health team has benefited healthcare students, professionals, users, carers and institutions both in the UK and internationally by establishing a participatory methodology for high-quality, sustainable multimedia Reusable Learning Objects (RLOs). These learning tools are now used in 50 countries globally to facilitate individual access to knowledge, enhance learning within curriculums and deliver continuing professional development, with feedback showing satisfaction of up to 100% in some nations. They are also being used to train healthcare professionals in resource-poor countries, further strengthening the University of Nottingham's role as a global education provider.
Compendium software is used to map dialogue and information around socio-technical dilemmas with economic, public policy, educational and health impacts. In Australia, urban planners attribute stakeholder buy-in to dialogue mapping with Compendium. In the USA, a deadlocked environmental planning process used it to make progress, while Southern California Edison use it to manage environmental policy. In the NHS, it can map therapeutic group dynamics, while in Germany, a journalist summarised a medical ethics case to parliament with it. More than 170 companies and individuals have endorsed Compendium, a striking application being to control Attention Deficit Hyperactivity Disorder (ADHD) at work.
Outcomes of the research conducted at the University of Edinburgh (2001 to 2007) that have had the most far-reaching impact are a strong conceptualisation of the whole learning environment (including curricula, teaching, learning support, and assessment and feedback) and its influence on the quality of undergraduates' learning. What gave these outcomes added resonance was a concern for disciplinary distinctiveness as well as more generic features; an alertness to the pervasive implications for day-to-day teaching-learning practices of mass 21st-century higher education; and a focus on enhancing as well as evaluating the student experience.
The reach of the impact extends to university teachers, middle and senior academic managers, local and national bodies with responsibilities for surveying quality and standards and, albeit less directly, students. Staff in at least 21 universities in 12 countries have used the Experiences of Teaching and Learning Questionnaire (ETLQ). The National Student Survey questionnaire was influenced by the ETLQ, and has continuing UK-wide impact on teaching through students' retrospective ratings of their experience. Project outputs were directed towards teaching staff through workshops, publications and invited presentations, followed by detailed advice on assessment and feedback of coursework.
Embedded software in the transportation sector (railway, automotive and avionics) needs to meet high reliability requirements because errors may have severe consequences. Research since 2008 in the UoA has developed effective reasoning technology to provide assurance that key error types are eliminated from embedded software, and has created novel algorithms to prove its integrity. Major players such as [text removed for publication] GM and Airbus have used technology developed in the UoA to verify the absence of errors. A particular advantage of this technology is its ability to reason about floating-point arithmetic, meaning that a much wider class of properties can be verified. The technology is widely distributed via third party operating systems and tool-sets.
The impact of educational research from the Rothschild Centre for Clinical Simulation and Education Research (RCSER) at Imperial College London has progressed from the development and validation of simulators and skill assessment, through to shaping guidelines for training curricula and continued professional development in the NHS and beyond. This body of multidisciplinary research brings together Imperial's contributions in simulation science, skills assessment, performance-shaping factors, educational theory and surgical practice to contribute to national and international healthcare education and policy. The work impacts upon clinical practice at regional, national and international levels, with far-reaching implications for the quality and safety of patient care.
This case study describes impact arising from research into designing constructionist tools that provide personalisation, support and guidance to learners and teachers, resulting in software used in several schools, FE colleges and universities world-wide. Constructionist learning is founded on the principle of constructionism which argues for the pedagogical importance of building artefacts as a way of building mental representations. A key computational challenge in the design of tools that foster constructionist learning is to provide intelligent support that guides users towards productive interaction with the tool without constraining its creative potential.
CRL works on dispositional teaching (DT) in schools and colleges: that is, teaching methods that impact on the development of learners' dispositions towards, and beliefs about, learning itself. Generic dispositions such as perseverance in the face of difficulty, reflective checking of assumptions, or willingness to seek and act on feedback, are crucial mediators of students' success as learners. CRL contributes to research on DT, and derives tools that enable teachers in a range of settings to correct dysfunctional beliefs, inculcate effective learning habits, and cultivate a positive mind-set towards the challenges of learning. Our research is of two kinds: literature- based theory-development; and empirical assessment of the efficacy of derived tools and pedagogical processes.
It focuses on the development of positive learning dispositions (PLDs) in three main `contexts':