OPENING TEL SYSTEMS FOR TEACHERS - A Domain-specific Modeling & Model-driven Engineering Approach

El Amine Ouraiba, Christophe Choquet, Philippe Cottier

2011

Abstract

Despite their quality, few TEL systems are actually adopted in educational institutions. These educational technologies have not always the necessary flexibility for use in real educational contexts that often requiring the rapid adaptations to new and often unexpected events (Cottier et al., 2008). Indeed, TEL environements should be designed as “open” in which the teacher himself is able to lead the adaptation and reengineering of learning system at an abstract level. In our work, we consider that opening of pedagogical scenario allows for the opening of TEL system. This article focuses on an approach based on the Domain-Specific Modeling and Model-driven Engineering for supporting practitioner teachers in their activities through the instructional design process. In order to verify our proposal we took Hop3x as experimentation field. Our objective is to open this TEL system for its users by providing them a user-friendly editor which allows the design and adaptation of learning sessions at a high-level of abstraction. We illustrate the development process of Hop3x’s Domain-Specific Language and specific editor.

References

  1. Bourguin, G., Derycke, A., 2005. Systèmes Interactifs en Co-évolution Réflexions sur les apports de la Théorie de l'Activité au support des Pratiques Collectives Distribuées. Revue d'Interaction Homme-Machine Vol 6 N°1.
  2. Bowkers, G., Leigh Star, S., Turner, W., Gasser, L., 1997. Social science, technical systems and cooperative work: beyond the great divide. Lawrence Erlbaum Associates, “Computer, cognition and work” series, 470 p.
  3. Choquet, C., 2007. Ingénierie et réingénierie des EIAHL'approche REDiM. Habilitation à diriger les recherches en informatique, Université du Maine.
  4. Cottier, P., Choquet, C., Tchounikine, P. 2008. Repenser l'ingénierie des EIAH pour des enseignants concepteurs. In: Usages, usagers et compétences informationnelles au XXIème siècle, Jérôme Dinet (ed.), p.159-193. Édité par Hermes Lavoisier, ISBN 978-2-7462-2193-2.
  5. Cottier, P., EL-Kechaï, H., 2009. L'usager concepteur en situation: Conception collective d'un livret électronique d'apprentissage (LÉA).In: Ingénierie des systèmes d'information, ISSN1633-1311. vol.14, no3. p162
  6. Després, C., 2001. Modélisation et conception d'un environnement de suivi pédagogique synchrone d'activités d'apprentissage à distance, Phd Thesis, Université du Maine, 286p
  7. Eclipse EMP, 2008. Eclipse Modeling Projects. http://www.eclipse.org/modeling/. Retrieved from Octobre 2008.
  8. Henri, F., Compte, C., Charlier, B., 2007. La scénarisation pédagogique dans tous ses débats. Revue internationale des technologies en pédagogie universitaire, 4(2).
  9. IMS Global Learning Consortium, “IMS Learning Design Specification, Version 1 - Final Specification”, 2003, available at: http://www.imsglobal.org/learningdesign/
  10. Kelly, S., Tolvanen, J., 2008. Domain-specific modeling: enabling full code generation. 448 pages. Wiley-IEEE Computer Society Press. ISBN: 978-0-470-03666-2.
  11. Koper, R., 2001. Modeling units of study from a pedagogical perspective: the pedagogical meta-model behind EML, Open University of the Netherlands.
  12. OMG, 2006. MDA specification guide. Version 1.0.1. Report-omg/03-06-01.
  13. Ouraiba, E. A., Choquet, C., Cottier, P., Després, C., Jacoboni, P., 2010. Engineering of open learning scenarios: the case of Hop3x learning scenarios. Proceedings of IEEE ICALT'10, Tunisia, pp. 264-268.
  14. Pham Thi Ngoc, D., Iksal, S., Choquet, C., Klinger, E., 2009. UTL-CL:A Declarative Calculation Language Proposal for a Learning Tracks Analysis Process. Proceeding of the 9th IEEE International Conference on Advanced Learning Technologies (ICALT'09), Riga, Latvia, July, pp.681-685.
  15. Roditi, É., 2003. Régularité et variabilité des pratiques ordinaires d'enseignement. Le cas de la multiplication des nombres décimaux en sixième, Recherches en Didactique des Mathématique. 23 (2).
  16. Rogalski, J., 2003.Y a-t-il un pilote dans la classe ? Une analyse de l'activité de l'enseignant comme gestion d'un environnement dynamique ouvert. Recherches en Didactique des Mathématiques. 23(3)342-348.
  17. Steinberg, D., Budinsky, F., Paternostro, M., 2008. EMF: Eclipse Modeling Framework, Second Edition. Publisher: Addison Wesley Professional.
  18. The Reload Project, The University of Bolton, The University of Strathclyde and JISC, 2004. Available at: http://www.reload.ac.uk/editor.html
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Paper Citation


in Harvard Style

Amine Ouraiba E., Choquet C. and Cottier P. (2011). OPENING TEL SYSTEMS FOR TEACHERS - A Domain-specific Modeling & Model-driven Engineering Approach . In Proceedings of the 3rd International Conference on Computer Supported Education - Volume 1: CSEDU, ISBN 978-989-8425-49-2, pages 312-317. DOI: 10.5220/0003345803120317


in Bibtex Style

@conference{csedu11,
author={El Amine Ouraiba and Christophe Choquet and Philippe Cottier},
title={OPENING TEL SYSTEMS FOR TEACHERS - A Domain-specific Modeling & Model-driven Engineering Approach},
booktitle={Proceedings of the 3rd International Conference on Computer Supported Education - Volume 1: CSEDU,},
year={2011},
pages={312-317},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0003345803120317},
isbn={978-989-8425-49-2},
}


in EndNote Style

TY - CONF
JO - Proceedings of the 3rd International Conference on Computer Supported Education - Volume 1: CSEDU,
TI - OPENING TEL SYSTEMS FOR TEACHERS - A Domain-specific Modeling & Model-driven Engineering Approach
SN - 978-989-8425-49-2
AU - Amine Ouraiba E.
AU - Choquet C.
AU - Cottier P.
PY - 2011
SP - 312
EP - 317
DO - 10.5220/0003345803120317