7,665 research outputs found
The learner centric ecology of resources: a framework for using technology to scaffold learning
This paper is based upon a Keynote presentation at CAL07 and extends previous introductory descriptions of the Ecology of Resources model of educational contexts. The relationships between the elements in the Ecology of Resources are a particular focus for discussion here. In particular, we consider how we might use the Ecology of Resources model to scaffold learning so that a wide range of the resources available to a learner within their context can be used to best support their learning needs. Resources here include people, technologies and artifacts. We look for ways in which they can be linked and marshaled in a learner centric manner and draw on the HOMEWORK and VeSEL projects as practical examples of the way the Ecology of Resources framework can be used
Pedagogic approaches to using technology for learning: literature review
This literature review is intended to address and support teaching qualifications and CPD through identifying new and emerging pedagogies; "determining what constitutes effective use of technology in teaching and learning; looking at new developments in teacher training qualifications to ensure that they are at the cutting edge of learning theory and classroom practice and making suggestions as to how teachers can continually update their skills." - Page 4
An analysis of social interaction between novice older adults when learning gesture-based skills through simple digital games
This paper reports three exploratory empirical studies with older adults that had little or no prior experience with interactive technologies. The participants were introduced to interactive technology by playing games on touchscreens, playing in pairs with the assistance of a mentor. We focus on two principle aspects, the peer-to-peer interaction during these sessions, and the role of the mentor in progressing the sessions. In the case of peer-to-peer interaction we looked for ways in which players supported each other during interaction to assess the role of peer interaction in this context. In the case of mentoring, we examined the efficacy of a minimalist approach where verbal encouragement, suggestions or (in the last resort) intervention are used to provide support to learners. The sessions showed that learners typically could play and learn basic manipulations independently after initial help and guidance from mentors. We also found that peer interaction, both in verbal and non-verbal communication and cooperative action was broadly a positive influence within sessions, suggesting that there is significant value in building confidence as well as in learning
Treasure codes: augmenting learning from physical museum exhibits through treasure hunting
Previous studies have highlighted the difficulty that designers face in creating mobile museum guides to enhance small group experiences. In this paper, we report a study exploring the potential of mobile visual recognition technology (Artcodes) to improve users’ experiences in a visitor centre. A prototype mobile guide in the form of a treasure hunt was developed and evaluated by means of a field study comparing this technology with the existing personal guided tour. The results reveal a preference for the mobile guide amongst participants and show significant learning gains from pre-test to post-test compared with the pre-existing personal tour. Our observational analyses indicate how the mobile guide can be used to improve visitors’ learning experiences by supporting active discovery and by balancing physical and digital interactions. We further expand the concept of design trajectories to consider micro-scaffolding as a way of understanding and designing future public technologies
Young children\u27s collaborative interactions in an educational computer environment
This study investigated the collaborative interaction patterns exhibited by five-year old pre-primary children in an educational computer environment. The case study method was used in one pre-primary centre in metropolitan Perth, Western Australia, to examine the patterns of collaborative interaction among young children whilst engaged with the computer. The one event case study was of the interactions exhibited by pre-primary children whilst engaged, in dyads, with the computer within a naturalistic classroom environment. This study involved three phases of data collection. Phase I consisted of observations and videotaping sessions, compilation of written observations, narrative descriptions and relevant field notes on each participant. To assess the children\u27s current social skills and computer competence and their general social interaction with peers, the researcher interviewed the children and their teacher using a semi-structured interview schedule to guide the discussion. Phase IT comprised reviewing and transcribing the videotapes and coding children\u27s interactions, while Phase III consisted of analysing all the data obtained. Both observational comments and descriptions and data analyses were presented with anecdotes. 243 interactions were identified and classified into 16 interaction patterns. They were: directing partner\u27s actions; self-monitor/repetition; providing information; declarative planning; asking for information/explanation; disagreeing with partner; accepting guidance; terminal response; exclaiming; correcting others; defending competence; showing pleasure; showing displeasure; sharing control; defending control; and suggesting ideas. Frequency of occurrence of identified interactions was analysed in the form of descriptive statistics. Factors facilitating the collaborative interaction of children whilst engaged with the computer activities were found to be: developmental appropriateness of the software; preexisting computer competency between children; children\u27s preexisting positive attitude towards computer; mutual friendship between collaborators; children\u27s social goals; appropriate structure of enjoyable learning environment; mutual understanding of turn-taking system; and positive non-isolated physical settings of the computer environment. Factors inhibiting collaborative interaction were identified as: non-developmentally appropriate software; lack of computer competency between children; negative attitude (on the part of both children and teacher) towards computer and learning; sense of competition between collaborators; social goals of each child; inappropriate structure to promote enjoyable learning environment; no mutual understanding of turn-taking system; and isolate physical settings of the computer environment. Associated with the findings were three major variables: (1) the classroom teacher variable (philosophy and educational beliefs, task-structure and computer management); (2) the software variable (developmentally appropriateness, content, design, and programmed task-structure); and (3) the child variable (computer competency and attitude towards computer, social goals, social skills, and personal relationship with collaborators). By identifying the collaborative interactions of children, and factors that may facilitate or inhibit these interactions, early childhood educators will be in a better position to integrate the computer into their classroom and to promote positive prosocial interaction among children whilst engaged at the computer. In general, findings suggest that computers should be integrated into all early childhood classrooms and afforded the same status as other traditional early childhood learning materials and activities
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JuxtaLearn D3.2 Performance Framework
This deliverable, D3.2, for Work Package 3 incorporating the pedagogy from WP2 and orchestration factors mapped in D3.1 reviews aspects of performance in the context of participative video making. It reviews literature on curiosity and engagement characteristics of interaction mechanisms for public displays and anticipates requirements for social network analysis of relevant public videos from WP6 task 6.3. Thus, to support JuxtaLearn performance it proposes a reflective performance framework that encompasses the material environment and objects required, the participants, and the knowledge needed
Enhancing design learning using groupware
Project work is increasingly used to help engineering students integrate, apply and expand on knowledge gained from theoretical classes in their curriculum and expose students to 'real world' tasks [1]. To help facilitate this process, the department of Design, Manufacture and Engineering Management at the University of Strathclyde has developed a web±based groupware product called LauLima to help students store, share, structure and apply information when they are working in design teams. This paper describes a distributed design project class in which LauLima has been deployed in accordance with a Design Knowledge Framework that describes how design knowledge is generated and acquired in industry, suggesting modes of design teaching and learning. Alterations to the presentation, delivery and format of the class are discussed, and primarily relate to embedding a more rigorous form of project-based learning. The key educational changes introduced to the project were: the linking of information concepts to support the design process; a multidisciplinary team approach to coaching; and a distinction between formal and informal resource collections. The result was a marked improvement in student learning and ideation
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Rethinking distance education in China: Mobile-assisted language learning designs in a blended foreign language curriculum
In recent years, China’s distance education has largely adopted a blended learning approach. However the online aspects of learning are characterized by a lack of interactivity and individualization. This could change with the advent of mobile learning. Many web 2.0 tools that allow for collaborative interactions are compatible with mobile devices, and mobile learning can engage learners by offering a rich, informal, contextualized, situated and ubiquitous learning environment. Mobile learning can also be personalized as smartphones and other devices can be customized and learning resources can be tailor-made. This is very important for Chinese distance learners who have a wide age distribution and diverse learning experiences and therefore have individual learning needs and desires. It seems an opportune moment to integrate mobile-assisted language learning (MALL) into a blended foreign language curriculum. A collaborative project between The Open University UK and the Open University of China (Nanhai) enabled exploration of how MALL could be integrated in a blended foreign language curriculum for distance learners, from a learning/instructional design perspective. Based on a literature review, knowledge of the requirements and habits of Chinese distance learners gathered via a survey, and tutor feedback from a mobile learning pilot course, we present our findings and put forward a number of design principles that can guide mobile learning designs to support transformation of distance education in China
RTST Trend Report: lead theme Contextualisation
Specht, M., Börner, D., Tabuenca, B., Ternier, S., De Vries, F., Kalz, M., Drachsler, H., & Schmitz, B. (2012). RTST Trend Report: lead theme Contextualisation. Deliverable 1.7 of STELLAR network of excellence. Heerlen, The Netherlands.In summary this trend-scouting report highlights different design dimensions of contextualizing learning. On the one hand designing educational context: the components and constituents of the educational setting, which also have to be orchestrated in an instructional design or the process of orchestration (Luckin, 2010, Specht, 2009) on the other hand bridging and linking learning contexts for seamless learning support: Wong et al. define design dimensions of seamless learning experiences and which gaps they identify and what challenges must be tackled to create seamless learning experiences (Wong, 2011).STELLAR Network of Excellence, Grant 23191
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Augmenting the field experience: a student-led comparison of techniques and technologies
In this study we report on our experiences of creating and running a student fieldtrip exercise which allowed students to compare a range of approaches to the design of technologies for augmenting landscape scenes. The main study site is around Keswick in the English Lake District, Cumbria, UK, an attractive upland environment popular with tourists and walkers. The aim of the exercise for the students was to assess the effectiveness of various forms of geographic information in augmenting real landscape scenes, as mediated through a range of techniques and technologies. These techniques were: computer-generated acetate overlays showing annotated wireframe views from certain key points; a custom-designed application running on a PDA; a mediascape running on the mScape software on a GPS-enabled mobile phone; Google Earth on a tablet PC; and a head-mounted in-field Virtual Reality system. Each group of students had all five techniques available to them, and were tasked with comparing them in the context of creating a visitor guide to the area centred on the field centre. Here we summarise their findings and reflect upon some of the broader research questions emerging from the project
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