Understanding the Learners' Actions when using Mathematics Learning Tools

The use of computer-based mathematics tools is widespread in learning. Depending on the way that these tools assess the learner's solution paths, one can distinguish between automatic assessment tools and semi-automatic assessment tools. Automatic assessment tools directly provide all feedback necessary to the learners, while semi-automatic assessment tools involve the teachers as part the assessment process. They are provided with as much information as possible on the learners' interactions with the tool. How can the teachers know how the learning tools were used and which intermediate steps led to a solution? How can the teachers respond to a learner's question that arises while using a computer tool? Little is available to answer this beyond interacting directly with the computer and performing a few manipulations to understand the tools' state. This paper presents SMALA, a web-based logging architecture that addresses these problems by recording, analyzing and representing user actions. While respecting the learner's privacy, the SMALA architecture supports the teachers by offering fine-grained representations of the learners' activities as well as overviews of the progress of a classroom.

[1]  Vincent Aleven,et al.  A New Paradigm for Intelligent Tutoring Systems: Example-Tracing Tutors , 2009, Int. J. Artif. Intell. Educ..

[2]  Ulrik Schroeder,et al.  Using Capture & Replay for Semi-automatic Assessment , 2011 .

[3]  Vladan Devedzic,et al.  LOCO-Analyst : semantic web technologies in learning content usage analysis , 2008 .

[4]  George Goguadze Representation for Interactive Exercises , 2009, Calculemus/MKM.

[5]  Andreas Fest CREATING INTERACTIVE USER FEEDBACK IN DGS USING SCRIPTING INTERFACES , 2010 .

[6]  Claus Zinn,et al.  Getting to Know Your Student in Distance Learning Contexts , 2006, EC-TEL.

[7]  P. Drijvers,et al.  From artifacts to instruments: a theoretical framework behind the orchestra metaphor , 2008 .

[8]  Luis E. Anido-Rifón,et al.  Reverse OAuth: A solution to achieve delegated authorizations in single sign-on e-learning systems , 2009, Comput. Secur..

[9]  Ulrich Kortenkamp,et al.  E-Learning Tools with Intelligent Assessment and Feedback for Mathematics Study , 2012 .

[10]  Erica Melis,et al.  Towards Accessing Disparate Educational Data in a Single, Unified Manner , 2008, EC-TEL.

[11]  Ulrik Schroeder,et al.  Application of Qualitative Content Analysis in User-Program Interaction Research , 2005 .

[12]  Viviane Guéraud,et al.  Automatic Semantic Activity Monitoring of Distance Learners Guided by Pedagogical Scenarios , 2006, EC-TEL.

[13]  Sandra Rebholz,et al.  Applying Computer-Aided Intelligent Assessment in the Context of Mathematical Induction , 2013, Trans. Edutainment.