Enhanced Personalised Learning Support of Computer Algebra Systems

Enhanced Personalised Learning Support of Computer Algebra Systems • Christian Gütl • Institute of Information Systems and Computer Media (IICM), Graz University of Technology, Austria • School of Information Systems, Curtin Univerity of Technology, Perth, WA • Alexander Nussbaumer (Presenter) • Department of Psychology, University of Graz, Austria • Knowledge Management Institute, Graz University of Technology, Austria • CADGME 2009 • Hangenberg, Austria • 12 July 2009

CADGME 2009 Agenda • Introduction • Isabelle for Calculations in Applied Mathematics (ISCA) • Competence-based Knowledge Space Theory (CbKST) • Combining both Approaches • Implemenation • Conclusion and Outlook

CADGME 2009 Introduction Isabell for Calculations in Applied Mathematics Project ISAC System Single stepping CAS Focus on micro level (single problems) + help on solving problems - no adaptation, learning path, profile Competence-based Knowledge Space Theory CbKST Tools Psychological theory and application Focus on macro level (combination of problems) + user knowledge, learning paths - assessment items are "black boxes" Combining both approaches => assessment and guidance on micro and macro level => improvement of ISAC through CbKST => improvement of CbKST through ISAC

CADGME 2009 Isabell for Calculations in Applied Mathematics (ISAC) • ISAC can automatically solve algebraic tasks … and ….. • ISAC is useful for educational purposes, because: • solution can also be done step by step (single stepping system) by rewriting terms • interaction with learner • learner gets feedback from ISAC after each step • rules applied in each step are revealed to the learner • learner is supported in each step • ISAC "knows" the rules needed to solve a term • ISAC "knows" if the learner can solve a problem AND "knows" which rules the leaner can apply or not apply • Usually mathematical learning systems only "know" if a learner can solve a problem or not

CADGME 2009 Isabell for Calculations in Applied Mathematics (ISAC)

CADGME 2009 Competence-based Knowledge Space Theory (CbKST) • Knowledge Space Theory (KST) - behaviouristic theory • knowledge domain (Q) := set of problems • prerequisite relations between problems due to psychological reasons • knowledge state := problems a person can solve (subset of Q) • learning goal := problems a person should be able to solve Example: Q = {a, b, c, d, e} 378 x 605 = ? 58.7 x 0.94 = ? 1/2 x 5/6 = ? 30% of 34? Gwendolyn is 3/4 as old as Rebecca. Rebecca is 2/5 as old as Edwin. Edwin is 20 years old. How old is Gwendolyn?

CADGME 2009 Competence-based Knowledge Space Theory (CbKST) { a , b , c , d , e } { a , b , c , d } { a , b , c , e } { a , b , d } { a , b , c } { a , b } { a , c } { c } { a } Æ • Knowledge Space Theory (KST) - behaviouristic theory • knowledge structure := set of possible knowledge states with respect to prerequisite relations between problems

CADGME 2009 Competence-based Knowledge Space Theory (CbKST) { { a a , , b b , , c c , , d d , , e e } } { { a a , , b b , , c c , , d d } } { { a a , , b b , , c c , , e e } } { { a a , , b b , , d d } } { { a a , , b b , , c c } } { { a a , , b b } } { { a a , , c c } } { { c c } } { { a a } } Æ Æ • Adaptive Assessment • problem b sloved • problem d solved • problem c not solved Personal Learning Paths χ χ χ χ χ χ χ χ χ

CADGME 2009 Competence-based Knowledge Space Theory (CbKST) • Competence-based extension: KST -> CbKST • introducing competences / skills: cognitive constructs • assigning skills to problems: skills needed to solve a problem • assigning skills to learning objects: skills taught by a learning object • assigning skills to learners: learners have available skills • => relation between problems, learning objects, and learners Problems Skills Learning Objects

CADGME 2009 Competence-based Knowledge Space Theory (CbKST) • prerequisite relations between skills (due to psychological reasons) • competence state: set of skills which a learner has available • learning goal: set of skills which a learner should have available applying the Pythagorean Theorem stating the sides of a right triangle understanding calculation of the area of a square knowing right triangle knowing square knowing triangle

CADGME 2009 Competence-based Knowledge Space Theory (CbKST) • CbKST is a prominent method to achieve adaptivity in e-learning systems (adaptive assessment and adaptive learning paths) • set-theoretic psychological mathematical framework for • structuring knowledege domains • representing knowledge of learners • representing learning goals • adaptive and efficient assessment • personalised learning paths: tailored to learner‘s current competence state and learning goal • performing learning cycle (example): • structuring domains (domain expert) • define learning goal (by teacher/tutor or learner) • adaptive assessment (learner) • personalised learning path based on kowledge/cometence state (learner) • goto 2. • visual feedback in every step

CADGME 2009 Combining ISAC and CbKST • Approach 1 • determine the sequence of problems according to CbKST • determine knowledge and competence state according to result of problems

CADGME 2009 Combining ISAC and CbKST • Approach 1 • CbKST: domain model has to be created • CbKST: set a learning goal as set of skills • CbKST: calculate which problem should be posed to learner • ISAC: problem is posed to learner, learner goes step by step through • ISAC: result is sent to CbKST • CbKST: if knowledge state has not been found, then according to result, next problem is posed to learner (goto 3) • CbKST: if kowledge state has been found, then calculate competence state (reason available skills) • CbKST: according to knowledge and competence state appropriate learning objects are selected • ISAC: learning objects are presented to the learner

CADGME 2009 Combining ISAC and CbKST • Approach 2: • mapping mathematical rules to skills

CADGME 2009 Combining ISAC and CbKST • Approach 2: • skill definition: being able to apply a specific mathematical rule • assigning skills to problem: ISAC "knows" which mathematical rules are needed to solve the probleme • Advantages • assignment of skills to problems can be done by ISAC instead of domain expert • instead of reasoning skills from solved (or not solved) problems, skills can be directly assessed • it can be captured if a problem is solved only partly (without correct result) • direct help if learner has difficulties at a certain step

CADGME 2009 Combining ISAC and CbKST: Implementation • Implementation • CbKST module implemented as Web Service • ISAC connects to CbKST module • report results • get information about next objects CbKST Extension Browser HTTP SOAP ISAC

CADGME 2009 Authoring • Content author has to • create a domain model (in CbKST Web Service) • skill definitions • skill assignment to learning objects • problems and learning objects are referenced in CbKST domain model

CADGME 2009 Conclusion and Outlook • Conclusion • combining ISAC and CbKST • approach 1: sequencing problems and learning objects • approach 2: direct monitoring of skills • adaptation on micro and macro level • feedback on micro and macro level • Outlook • implementation of approach 2 • on level of algorithm • implemenation

Thank you for your attention! • Contact information: • Christian Gütl • cguetl@iicm.edu • http://www.iicm.tugraz.at/cguetl • Alexander Nussbaumer • alexander.nussbaumer@uni-graz.at • http://css.uni-graz.at/staff/nussbaumer/

Enhanced Personalised Learning Support of Computer Algebra Systems