FISBEC: Un sistema para el reconocimiento de planes en Geometría y Física
Resumen
Palabras clave
Referencias
Bower, G. and Hilgard, E. (1973). Theories of learning. Prentice Hall, Inc.
Carberry, S. (1990). Incorporating default inferences into Plan recognition. Proceedings of Eight National Conference on Artificial Intelligence, Association for the Advancement of Artificial Intelligence, Boston. 471-478.
Flórez, R. (1994). Hacia una pedagogía del conocimiento. McGraw-Hill. Bogotá.
Greer, J. & Koehn, G. & Rodríguez, J. (1993). A System for Exploring Plan Recognition. In P. Berna, S. Ohlsson & H. Pain (Eds.). Artificial Intelligence in Education, 1994. Association for the Advancement of Computing in Education, Edinburgh, Scotland. 465-472.
Kautz, H. & Allen, J. (1986). Generalized Plan Recognition. Proceedings of Fifth National Conference on Artificial Intelligence, Association for the Advancement of Artificial Intelligence. Philadelphia, 32-37.
Liang, H y Sedig, K. (2007). Presentation of feedback in interactive learning environments: some dimensions. Proceedings of Ed-Media-2007. Association for the Advancement of Computing in Education, Vancouver, Canada. 972-977.
Rodriguez, J. FISBEC: A System for Learning Physics through Geometry. Procbook SITE 2008, pp. 1793-1798. Las Vegas, EEUU
Rodríguez, J. and Esteves, Y. (2007). MODA: A System for Identifying Paths of Learning in Energy. Proceedings of Ed-Media-2007. AACE, Vancouver, Canada. 3015-3020.
Wobcke ,W. (2002). Two Logical Theories Of Plan Recognition. Journal of Logic and Computation. 12(3):371-412.