2 research outputs found
Automated and Flexible Comparison of Course Sequencing Algorithms in the LS-Lab Framework
Curriculum Sequencing is one of the most interesting challenges
in learning environments, such as Intelligent Tutoring Systems and
e-learning. The goal is to automatically produce personalized sequences
of didactic materials or activities, on the basis of each individual student’s
model. In this paper we present the extension of the LS-Lab framework,
supporting an automated and flexible comparison of the outputs coming
from a variety of Curriculum Sequencing algorithms over the same student
models. The main aim of LS-Lab is to provide researchers or teachers
with a ready-to-use and possibly extensible environment, supporting
a reasonably low-cost experimentation of several sequencing algorithms.
The system accepts a student model as input, together with the selection
of the algorithms to be used and a given learning material; then the
algorithms are applied, the resulting courses are shown to the user, and
some metrics computed over the selected characteristics are presented,
for the user’s appraisal
Automated and flexible comparison of course sequencing algorithms in the LS-Lab framework
Curriculum Sequencing is one of the most interesting challenges in learning environments, such as Intelligent Tutoring Systems and e-learning. The goal is to automatically produce personalized sequences of didactic materials or activities, on the basis of each individual student's model. In this paper we present the extension of the LS-Lab framework, supporting an automated and flexible comparison of the outputs coming from a variety of Curriculum Sequencing algorithms over the same student models. The main aim of LS-Lab is to provide researchers or teachers with a ready-to-use and possibly extensible environment, supporting a reasonably low-cost experimentation of several sequencing algorithms. The system accepts a student model as input, together with the selection of the algorithms to be used and a given learning material; then the algorithms are applied, the resulting courses are shown to the user, and some metrics computed over the selected characteristics are presented, for the user's appraisal. © 2010 Springer-Verlag