Future Learning LandscapesTowards the Convergence of Pervasive and Contextual Computing, Global Social Media and Semantic Web in Technology Enhanced Learning
1. Future Learning LandscapesTowards the Convergence of Pervasive and Contextual Computing, Global Social Media and Semantic Web in Technology Enhanced Learning Serge Garlatti
2. Outline Introduction Web 2.0 Mobile, Pervasive, Ubiquitous Learning Semantic Web, Linked Data Convergence Inquiry Based Science Teaching: IBST V. 1 Inquiry Based Science Teaching: IBST V. 2 An Ubiquitous Cloud Learning Environment Models, architecture and tools Conclusion ISC Conference 2011 Futures Learning Landscapes page 1
3. Introduction Contributors JM Gilliot, Telecom Bretagne, l’un de ses Blogs C. Pham Nguyen, Telecom Bretagne S. Laubé, UBO, PAHST Yan Peter, LIFL A. Bouzeghoub, Telecom SudParis Somereferences http://conferences.telecom-bretagne.eu/futurelearning2010/ http://molene.enstb.org/futurelearning/ http://molene.enstb.org/mlearning09/ ISC Conference 2011 Futures Learning Landscapes page 2
5. Web 2.0 Source: Dion Hincliffe ISC Conference 2011 Futures Learning Landscapes page 4
6. Web 2.0 - Applications Blogs Personal publication + comments by others Linking facilities at the level of information & people For education Reflection, diary, assignment publishing Course information & follow up (answering questions…) ISC Conference 2011 Futures Learning Landscapes page 5
7. Web 2.0 - Applications Wikis Collaborative writing & content organisation For education Supporting group and project work, Annotated reading list, Practicing writing skills Collaborative editing Web tools are used collaboratively to design, construct and distribute some digital product Google Docs, Etherpad ISC Conference 2011 Futures Learning Landscapes page 6
8. Web 2.0 - Applications ConversationalArenas One-to-one or one-to-many conversations between internet users Online Games and virtual world Rule-governed games or themed environments that invite live interaction with other internet user ISC Conference 2011 Futures Learning Landscapes page 7
9. Web 2.0 - Applications Social bookmarking Keep reference of interesting material Organising information with tags Taking benefit from resources found by others ISC Conference 2011 Futures Learning Landscapes page 8
10. Web 2.0 - Applications Media sharing and manipulation Tools to upload, download, design and edit digital media files For education Images & videos can be provided Annotation on the images or video can support specific explanations ISC Conference 2011 Futures Learning Landscapes page 9
11. Web 2.0 - Applications Social networking Keeping in touch with relations, forming and supporting social communities For education Course animation outside the class ISC Conference 2011 Futures Learning Landscapes page 10
12. Web 2.0 - Applications Syndication & Notifications Users can ‘subscribe’ to RSS feed enabled websites so that they are automatically notified of any changes or updates in content via an aggregator. Easy notification of updates, automatic media distribution (podcast episodes) For education A way to keep an eye on learners’ progress A way to distribute course content automatically ISC Conference 2011 Futures Learning Landscapes page 11
13. WEB 2.0: Emerging Paradigm Personal Learning Environment Definition (M. A. Chatti) A PLE is characterized by the freeform use of a set of lightweight services and tools (Web 2.0) that belong to and are controlled by individual learners. Built by the learner for a specific & personal learning goal Mashing up the services that will support best the goal No institutional drive or control ISC Conference 2011 Futures Learning Landscapes page 12
14. WEB 2.0: Emerging Paradigm Personal Learning Environment Fit well with socio-constructivist learning approaches Foster collaborative knowledge sharing and building and reflective practices ina social context Foster self-regulated learning sequences by student and discursive argumentation and communication with peer ISC Conference 2011 Futures Learning Landscapes page 13
15. WEB 2.0: Emerging Paradigm ISC Conference 2011 Futures Learning Landscapes How to access Data? PLE page 14
18. Mobile, Pervasive, Ubiquitous Learning A first definition Learning with portable technology: PDA, smartphones, PSP, PDA phones, mobile phones, Ipods, Iphones, MP3 players, labtop, UMPC, etc. everytime, everywhere. ISC Conference 2011 Futures Learning Landscapes page 17
19. Mobile, Pervasive, Ubiquitous Learning Mobile Computing Mobile computing: increasingourcapability to physically move computing services with us. The computingdevicecannotseamlessly and flexiblyobtain information about the context in which the computingtakes place and adjustitaccordingly. Pervasive Computing Capability to obtaininformation from the environment in whichitisembedded and use it to dynamicallybuildmodels of computing. Acquisition /management of contextmodels and adaptations ISC Conference 2011 Futures Learning Landscapes page 18
20. Mobile, Pervasive, Ubiquitous Learning Ubiquitous Computing Integrating large-scale mobility with pervasive computing features Features of mobile, pervasive, ubiquitous computing belong to those of mobile, pervasive, ubiquitous learning ISC Conference 2011 Futures Learning Landscapes page 19
21. Mobile, Pervasive, Ubiquitous Learning Bomsdorf2005 « Ubiquitous learning is the next step in performing e-learning and by some groups it is expected to lead to an educational paradigm shift, or at least, to new ways of learning. The potential of ubiquitous learning results from the enhanced possibilities of accessing learning content and computer-supported collaborative learning environments at the right time, at the right place, and in the right form. Furthermore, it enables seamless combination of virtual environments and physical spaces ». ISC Conference 2011 Futures Learning Landscapes page 20
22. Mobile, Pervasive, Ubiquitous Learning (Hundebol and Helms 2006) « Pervasive learning environment is a context (or state) for mediating learning in a physical environment enriched with additional site-specific and situation dependent elements – be it plain data, graphics, information -, knowledge -, and learning objects, or, ultimately, audio-visually enhanced virtual layers“. ISC Conference 2011 Futures Learning Landscapes page 21
23. Mobile, Pervasive, Ubiquitous Learning Mobility Portable Technologies Spatial Mobility Learnersmovingbetweendifferentlearningsettings Tool and ThematicMobility Learnersalternatingbetweendifferenttools and topics Temporal Mobility Learning iscumulative, currentlearningbuilds on previouslearning and are the basis for future learning. ISC Conference 2011 Futures Learning Landscapes page 22
24. Mobile, Pervasive, Ubiquitous Learning Social Community Learning is a social processwhich links learners to communities, people and situations Learners are not taught by one teacher, but rather by a community Collaborative learning Learning happens in collaboration between people and technology ISC Conference 2011 Futures Learning Landscapes page 23
25. Mobile, Pervasive, Ubiquitous Learning Enable learningactivities difficult before, sometimes impossible Learning may occur in location and time which are significant and relevant for learners Learning occurs in the context of activities involving an authentic task or problem, a location, a time, an environment, a social community, etc. Learning in context and across contexts ISC Conference 2011 Futures Learning Landscapes page 24
31. Semantic Web & Linked Data Who is teaching at Telecom Bretagne and riding a motorcycle across Europe? ISC Conference 2011 Futures Learning Landscapes page 30
32. Semantic Web & Linked Data Find the movies of type « thriller » And classified And appreciated by at least four friends on Or thosefollowing me on And withoutLeonardi Di Caprio as Actor ISC Conference 2011 Futures Learning Landscapes page 31
33. ISC Conference 2011 Futures Learning Landscapes Semantic Web & Linked Data Goals Reuse and sharing of data Interoperabilityatsemanticlevel How? Associatesemanticmetadata to resources Linked data silos by thesesemanticmetadata page 32
34. Semantic Web & Linked Data Description of Telecom Bretagne website SubjectVerbObject Telecom Bretagne has a presidentPaul Friedel Telecom Bretagne is a French Grande Ecole Telecom Bretagne has a websitehttp://www.tele... ISC Conference 2011 Futures Learning Landscapes page 33
35. Semantic Web & Linked Data In DBpedia Telecom Bretagnedbpprop:presidentPaul Friedel(en) Telecom Bretagnedbpprop:typeFrench Grande Ecole(en) Telecom Bretagnedbpprop:websitehttp://www.tele... Question French Grande Ecole whose Paul Friedel is a President? ?Grande_Ecoledbpprop:presidentPaul Friedel (en) ?Grande_Ecoledbpprop:typeFrench Grande Ecole (en) ISC Conference 2011 Futures Learning Landscapes page 34
36. Semantic Web & Linked Data LinkedData Published data according to standards RDF / RDFS / OWL SPARQL Access Point Querylanguage + Access protocol The Web willbe a Tremendous Global Database ISC Conference 2011 Futures Learning Landscapes page 35
38. Convergence A global, distributed and open architecture perspective Composed of social web environments, institutional learning environments and personal learning environments exposing, sharing, and connecting data on the Web. ISC Conference 2011 Futures Learning Landscapes page 37
39. Convergence Reuse, analyze and manage content across web application sources Monitor and analyze user activities and content production, to get user traces and to provide guidance and advices according to user activities and needs Combination of all these resources and techniques allow getting contextual data from web environments and sensors ISC Conference 2011 Futures Learning Landscapes page 38
41. Inquiry Based Science Teaching: IBST V. 1 IBST features Authentic and problem-based learning activities which are ill-defined and have several answers A certain amount of experimental procedures, experiments and activities involving practical experience of equipment and including searching for information; Self regulated learning sequences where student autonomy is emphasized; Discursive argumentation and communication with peers ("talking science"). ISC Conference 2011 Futures Learning Landscapes page 40
42. Inquiry Based Science Teaching: IBST V. 1 The complete problem Problem 1: understand the industrial landscape in the area of the bridge (Brest is a shipbuilding arsenal for the Navy). Problem 2: understand what is the historical and technological method of problem solving that led to the construction of the swinging bridge. Problem 3: understand the rotating mechanism of the swinging http://plates-formes.iufm.fr/ressources-ehst/spip.php?rubrique17 ISC Conference 2011 Futures Learning Landscapes page 41
43. Inquiry Based Science Teaching: IBST V. 1 Vestige ISC Conference 2011 Futures Learning Landscapes page 42
44. Inquiry Based Science Teaching: IBST V. 1 Prototypical Scenario Problem analysis in small groups Activation of prior knowledge Elaboration of a strategy to find needed information (define collaborative and cooperative activities) Collaborative work and exploitation Collaborative report writing Institutionalization / discussion ISC Conference 2011 Futures Learning Landscapes page 43
45. Inquiry Based Science Teaching:IBST V. 1 Historical reading and understanding of an industrial landscape (scenario stage 4) Photograph all elements of the current landscape with historical aspects about cranes and bridges of the arsenal, Locate the different elements on a current map of Brest, Identify and photograph the actual bridges and cranes linked existing bridges and cranes from previous: what continuities ? What ruptures? Store and publish information on the corresponding tools. ISC Conference 2011 Futures Learning Landscapes page 44
47. Inquiry Based Science Teaching: IBST V. 2 Prototypical Scenario Problem analysis in small groups Activation of prior knowledge Elaboration of a strategy to find needed information (define collaborative and cooperative activities) Collaborative work and exploitation Collaborative report writing Institutionalization / discussion ISC Conference 2011 Futures Learning Landscapes page 46
48. Inquiry Based Science Teaching:IBST V. 2 Smartphones Camera, GPS Network access Three groups Site visit Information seeking in navy museum Information seeking in local public records ISC Conference 2011 Futures Learning Landscapes page 47
49. Inquiry Based Science Teaching: IBST V. 2 Recommend suitable entities Resources, activities, tools, persons, … Depending on the current situation without any human interventions Push mode Groups or individuals can be notified according to the situation changes. The group/individual can select or not one of the given recommendations. ISC Conference 2011 Futures Learning Landscapes page 48
50. Inquiry Based Science Teaching: IBST V. 2 Three Push modes Recommend information from Navy museum and local public records retrieved by other group members or subgroup according to the needed domain concepts identified on the port and/or the current activities Recommend and provide information from subgroup visiting the port to other subgroups or group members Recommend checking some domain concepts missed by students or subgroups on the port. ISC Conference 2011 Futures Learning Landscapes page 49
51. Inquiry Based Science Teaching: IBST V. 2 Pull Mode A query filters concepts, resources, activities and persons Write queries On relevant domain concepts like “crane”, “bridge”, etc. according to the current context (activities and localization), On retrieved information from other group members or subgroups according to activities and/or localization ISC Conference 2011 Futures Learning Landscapes page 50
52. Inquiry Based Science Teaching: IBST V. 2 ISC Conference 2011 Futures Learning Landscapes page 51
53. Inquiry Based Science Teaching: IBST V. 2 ISC Conference 2011 Futures Learning Landscapes page 52
54. Inquiry Based Science Teaching: IBST V. 2 Models enable us to have common vocabularies to ensure exchange, reuse and sharing of resources at semantic level (Ontologies) A context model including a user model, a scenario model A domain model A resource model (a metadata schema) A Recommendation model (adaptation model), ISC Conference 2011 Futures Learning Landscapes page 53
55. Inquiry Based Science Teaching: IBST V. 2 Some metadata can be generated automatically (sometimes on the fly) from the tool databases according to common vocabularies like Dublin Core, SKOS, SIOC, FOAF, OPO, etc. Most of these vocabularies are lightweight ontologies that can fit well database schemas ISC Conference 2011 Futures Learning Landscapes page 54
56. A Cloud Learning Environment World Of Widgets Widget Model Course Cloud Component Notifications RSS/SParQL & Queries Queries Push/Pull flow My CLE Notification Widget Information Widget WebApps Self-defined Widget ISC Conference 2011 Futures Learning Landscapes page 55
59. Conclusions Convergence of PersonalLeaningenvironment, Ubiquitouslearningenvironment Semantic Web Main Issue How couldwe change our practices and/or learning scenarios to enhance the learningprocesses? ISC Conference 2011 Futures Learning Landscapes page 58
60. Conclusions Technical issues Context management Distributed user model Ontology management Tags versus Ontologies etc. ISC Conference 2011 Futures Learning Landscapes page 59