Manathunga K, Hernández-Leo D. Towards scalable collaborative learning flow pattern orchestratrion technologies. Paper presented at: 9th annual International Conference on Education and New Learning Technologies EDULEARN17
We develop a large number of software tools and hosting infrastructures to support the research developed at the Department. We will be detailing in this section the different tools available. You can take a look for the moment at the offer available within the UPF Knowledge Portal, the innovations created in the context of EU projects in the Innovation Radar and the software sections of some of our research groups:
Artificial Intelligence |
Nonlinear Time Series Analysis |
Web Research |
Music Technology |
Interactive Technologies |
Barcelona MedTech |
Natural Language Processing |
Nonlinear Time Series Analysis |
UbicaLab |
Wireless Networking |
Educational Technologies |
Manathunga K, Hernández-Leo D. Towards scalable collaborative learning flow pattern orchestratrion technologies. Paper presented at: 9th annual International Conference on Education and New Learning Technologies EDULEARN17
Manathunga K, Hernández-Leo D. Towards scalable collaborative learning flow pattern orchestratrion technologies. Paper presented at: 9th annual International Conference on Education and New Learning Technologies EDULEARN17; 2017 July 3-5; Barcelona, Spain.
Collaborative Learning Flow Patterns (CLFPs) structure learning flows to shape desired social interactions among learners leading to fruitful learning gains. It is worthwhile to study the possibilities of CLFP extensions to be applicable in large class contexts and also in Massive Open Online Courses (MOOCs) considering their dynamic, unpredictable nature. This study considers most commonly used patterns for the adaptability in such contexts from different dimensions like pedagogical interest, scalability and other related perspectives. As a result derived from the analysis, a collection of use cases is elaborated illustrating potential collaborative learning opportunities, design requirements, initial screen designs of such activities and expected functionality descriptions for novel CSCL orchestration technologies. One of these use cases is implemented in the PyramidApp tool.
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