Abstract
Nowadays, many user-modeling systems are applied to webbased adaptive systems. The large number of very different users using these systems make user model construction difficult. The solution is to use machine learning techniques that dynamically update the models by monitoring user behavior. However, the design of machine learning tasks for user modeling is static. This poses a problem in adaptive learning environments based on virtual communities. Each virtual community has its own administrators, and each administrator may prefer to include some more information on the user model. Another problem in the application of machine learning techniques for user model construction is the need to retrain the machine learning algorithms when new user interaction data become available. To face these problems, in this paper we present a multiagent adaptive module set in an adaptive learning collaborative environment. Our goal is two fold: (i) we want each administrator to be able to define new machine learning attributes in the user model (ii) we want to provide a mechanism to dynamically retrain the algorithms.
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References
C.L. Blake and C.J. Merz. UCI repository of machine learning databases, 1998.
J. G. Boticario and E. Gaudioso. An internet distance-learning operating model. Computers and Education in the 21st Century, pages 101–109, 2000.
J.G. Boticario, E. Gaudioso, and F. Hernandez. Adaptive navigation support and adaptive collaboration support in webdl. In Adaptive Hypermedia and Adaptive Web-based Systems, volume 1892 of LNCS, pages 51–61, 2000.
J. P. Gama. Combining Classification Algorithms. PhD thesis, Facultade de Ci ncias da Universidade do Porto, 1999.
E. Gaudioso and J. G. Boticario. Supporting personalization in virtual communities in distance education. Virtual Environments for Teaching and Learning, 2002. http://www.ia.uned.es/personal/elena/egvjgbkes02.pdf.
J. I. Giraldez and D. Borrajo. Distributed reinforcement learning in multi-agent decision systems. In Progress in Artificial Intelligence, Iberamia 98, number 1484 in LNAI, pages 148–159, 1998.
T. Mitchell. Machine Learning. McGraw Hill, 1997.
K. P. Sycara. Multiagent systems. AI Magazine 19, 2:79–92, 1998.
G. I. Webb, M. J. Pazzani, and D. Billsus. Machine learning for user modeling. User Modeling and User-Adapted Interaction, 11:19–29, 2001.
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Hernandez, F., Gaudioso, E., Boticario, J.G. (2003). A Multiagent Approach to Obtain Open and Flexible User Models in Adaptive Learning Communities. In: Brusilovsky, P., Corbett, A., de Rosis, F. (eds) User Modeling 2003. UM 2003. Lecture Notes in Computer Science(), vol 2702. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-44963-9_27
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DOI: https://doi.org/10.1007/3-540-44963-9_27
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