The Effect of Student Learning Styles on the Learning Gains Achieved When Interactive Simulations Are Coupled with Real-Time Formative Assessment via Pen-Enabled Mobile Technology

This paper describes results from a project in an undergraduate engineering physics course that coupled classroom use of interactive computer simulations with the collection of real-time formative assessment using pen-enabled mobile technology. Interactive simulations (free or textbook-based) are widely used across the undergraduate science and engineering curriculia to help actively engaged students increase their understanding of abstract concepts or phenomena which are not directly or easily observable. However, there are indications in the literature that we do not yet know the pedagogical best practices associated with their use to maximize learning. This project couples student use of interactive simulations with the gathering of real-time formative assessment via pen-enabled mobile technology (in this case, Tablet PCs). The research question addressed in this paper is: are learning gains achieved with this coupled model greater for certain types of learners in undergraduate STEM classrooms? To answer this, we correlate learning gains with various learning styles, as identified using the Index of Learning Styles (ILS) developed by Felder and Soloman. These insights will be useful for others who use interactive computer simulations in their instruction and other adopters of this pedagogical model; the insights may have broader implications about modification of instruction to address various learning styles.Comment: 6 pages 2 tables and 1 figur

Sparking Innovation in STEM Education with Technology and Collaboration

This report highlights innovative technology-supported pedagogic models in science, technology, engineering and mathematics (STEM) education, explores what to expect from collaboration in a designed network, and, thereafter, sketches lessons for promoting educational innovation through collaboration. How can technology-supported learning help to move beyond content delivery and truly enhance STEM education so that students develop a broad mix of skills? How can collaboration be encouraged and used to help develop, spread, accelerate and sustain innovation in education? The HP Catalyst Initiative –an education grant programme by the Hewlett Packard (HP) Sustainability and Social Innovation team – is used as a case study to answer these questions

Decoding learning: the proof, promise and potential of digital education

With hundreds of millions of pounds spent on digital technology for education every year – from interactive whiteboards to the rise of one–to–one tablet computers – every new technology seems to offer unlimited promise to learning. many sectors have benefitted immensely from harnessing innovative uses of technology. cloud computing, mobile communications and internet applications have changed the way manufacturing, finance, business services, the media and retailers operate. But key questions remain in education: has the range of technologies helped improve learners’ experiences and the standards they achieve? or is this investment just languishing as kit in the cupboard? and what more can decision makers, schools, teachers, parents and the technology industry do to ensure the full potential of innovative technology is exploited? There is no doubt that digital technologies have had a profound impact upon the management of learning. institutions can now recruit, register, monitor, and report on students with a new economy, efficiency, and (sometimes) creativity. yet, evidence of digital technologies producing real transformation in learning and teaching remains elusive. The education sector has invested heavily in digital technology; but this investment has not yet resulted in the radical improvements to learning experiences and educational attainment. in 2011, the Review of Education Capital found that maintained schools spent £487 million on icT equipment and services in 2009-2010. 1 since then, the education system has entered a state of flux with changes to the curriculum, shifts in funding, and increasing school autonomy. While ring-fenced funding for icT equipment and services has since ceased, a survey of 1,317 schools in July 2012 by the british educational suppliers association found they were assigning an increasing amount of their budget to technology. With greater freedom and enthusiasm towards technology in education, schools and teachers have become more discerning and are beginning to demand more evidence to justify their spending and strategies. This is both a challenge and an opportunity as it puts schools in greater charge of their spending and use of technolog

The integration of mobile learning app-based quiz-games in higher education teaching of anatomical sciences

Background: Mobile learning (mLearning) and gamification are two potential pedagogical tools that are continuously evolving in Higher Education. Their efficiency as learning tools is not fully understood and their use by staff is sporadic and sometimes viewed poorly compared to traditional methods. Aim: To determine a framework of best practice for the integration of mLearning app based quiz-games into the Higher Education (HE) teaching of anatomical sciences. This thesis presents three studies, which aim to 1) evaluate mLearning quiz-games as a revision tool for an anatomy online examination 2) and 3) investigate the effect of pre-seminar mLearning quiz gameplay on knowledge acquisition, retention and engagement in anatomy. Method: The data collection was performed over a two year period in a level 4 anatomy module for Sport and Exercise Science students. All three studies employed an experimental mixed methods approach within an action research framework to allow the development of the project in a naturalistic way. Study One was completed over two cohorts, 2014-15 (n=125) and 2015-16 (n=121). The module has four assessment points, A1, A2, A3, A4 where A1-3 are online assessments with a mixture of Multiple Choice Questions, labelling and matching questions and A4 is a viva voce. Students did A1, A2 and A4 as normal but at A3 they were offered a choice to revise as normal, the control group (n= 164) or to play mLearning games (n=87) for 15 minutes prior to the assessment on a tablet or smartphone device. All students completed a modified Study Process Questionnaire (SPQ) post-assessment and then for triangulation of data online focus groups were completed (n=84) as well as extended semi-structured interviews (n=9). Study Two was completed in 2015-16 using the same module as Study One. Over two consecutive weeks students were videoed in a two hour seminar session where in week one they did 15 minutes of no formal class preparation (n=87) and in week two they did 15 minutes of mLearning games (n=87). Students did a plenary and recap class Socrative quiz every week where the plenary scores indicate knowledge acquisition and the difference between the plenary and recap scores of subsequent weeks indicates knowledge retention. Observational behavioural engagement analysis was completed using an adapted coding system and students completed the National Survey of Student Engagement following each seminar. Study Three was completed on the same cohort in semester two using a randomised repeated measures design for the knowledge acquisition and knowledge retention scores over three weeks with three 15 minute interventions; Games, Control and Games plus question generation before class. Results: Study One found that the Games group performed better at A3 with no difference at A2 or A1 (p<0.0.01) but no differences were found in the SPQ surface and deep learning motives and strategies. Students revealed reasons for using mLearning quiz-games were primarily the fun, visual stimulation, instant feedback and accessibility. Study Two found that playing quiz-games prior to class increased on-task behaviours and peer interaction and improved knowledge acquisition and retention scores (p<0.01). Study Three agreed but found no difference in the Games-plus questions group compared to the control or games groups. Conclusions: The studies reveal the positive effect that mLearning quiz-games can have on achievement and engagement both in class and as a revision tool prior to assessment. The results of all three studies have been used to inform the proposed Mobigames framework for the integration of mLearning quiz-games in HE teaching. The framework has four key aspects: Information, Facilitation, Learning and Timing

Horizon Report Europe - 2014 Schools Edition

The NMC Horizon Project from the New Media Consortium is a long-term investigation launched in 2002 that identifies and describes emerging technologies likely to have a large impact over the coming five years in education around the globe. The NMC Horizon Report Europe: 2014 Schools Edition, the first of its kind for Europe, examines six key trends, six significant challenges and six important developments in educational technology that are very likely to impact educational change processes in European schools over the next five years (2014-2018). The topics within each section were carefully selected by the Horizon Project Europe Expert Panel, a body of 53 experts in European education, technology, and other fields. They come from 22 European countries, as well as international organisations and European networks. Throughout the report, references and links are made to more than 150 European publications (reports, articles, policy documents, blog posts etc.), projects (both EU-funded and national initiatives) and various policy initiatives from all over Europe. The Creative Classrooms multidimensional framework, developed by European Commission’s JRC-IPTS on behalf of DG EAC, was used for analysing the trends, challenges and technologies impacting European schools over the next five years. The analysis reveals that a systemic approach is needed for integrating new technologies in European schools and impacting educational change over the next five years.JRC.J.3-Information Societ

Proceedings of the International Workshop on EuroPLOT Persuasive Technology for Learning, Education and Teaching (IWEPLET 2013)

"This book contains the proceedings of the International Workshop on EuroPLOT Persuasive Technology for Learning, Education and Teaching (IWEPLET) 2013 which was held on 16.-17.September 2013 in Paphos (Cyprus) in conjunction with the EC-TEL conference. The workshop and hence the proceedings are divided in two parts: on Day 1 the EuroPLOT project and its results are introduced, with papers about the specific case studies and their evaluation. On Day 2, peer-reviewed papers are presented which address specific topics and issues going beyond the EuroPLOT scope. This workshop is one of the deliverables (D 2.6) of the EuroPLOT project, which has been funded from November 2010 – October 2013 by the Education, Audiovisual and Culture Executive Agency (EACEA) of the European Commission through the Lifelong Learning Programme (LLL) by grant #511633. The purpose of this project was to develop and evaluate Persuasive Learning Objects and Technologies (PLOTS), based on ideas of BJ Fogg. The purpose of this workshop is to summarize the findings obtained during this project and disseminate them to an interested audience. Furthermore, it shall foster discussions about the future of persuasive technology and design in the context of learning, education and teaching. The international community working in this area of research is relatively small. Nevertheless, we have received a number of high-quality submissions which went through a peer-review process before being selected for presentation and publication. We hope that the information found in this book is useful to the reader and that more interest in this novel approach of persuasive design for teaching/education/learning is stimulated. We are very grateful to the organisers of EC-TEL 2013 for allowing to host IWEPLET 2013 within their organisational facilities which helped us a lot in preparing this event. I am also very grateful to everyone in the EuroPLOT team for collaborating so effectively in these three years towards creating excellent outputs, and for being such a nice group with a very positive spirit also beyond work. And finally I would like to thank the EACEA for providing the financial resources for the EuroPLOT project and for being very helpful when needed. This funding made it possible to organise the IWEPLET workshop without charging a fee from the participants.