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Dive into the world of in-vivo experiments in learning with insights on features, studies, and challenges faced by researchers. Explore how instructional hypotheses are mapped to interventions and the importance of promoting active processing for improved outcomes in education.
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In-vivo research on learning Charles Perfetti PSLC Summer School 2009
In-vivo experiments • In Vitro • In Vivo
Features of in-vivo experiments in learning • “On-Line” course? • An Intelligent Tutoring System? • A real class; real students; an intervention that counts.
The value of in-vivo experiments in learning • Noisy, uncontrolled environment • Content of intervention is validated by course goals • So: Built in generalization to classroom learning
Problems faced by an in-vivo researcher • Noisy, uncontrolled environment • As for your experiment: • Students have other things to do • Instructors have other things to do
Examples of in-vivo studies • Algebra, Physics, Chemistry, Geometry, French, Chinese,English • Some with computer tutors in major role • ITS • Practice tutors • Some without tutors or tutors in minor role
Pre-requisites for an in-vivo experiment • Knowledge components analysis • Mapping of KCA to a learning or instructional hypothesis • Theory based • Empirical precedent • Mapping instructional hypothesis to specific intervention
Knowledge Components vs. curriculum topic Single Topic (Area) as unit 12 separate KCs as units Enabled by Data Shop
Whole Character = early morning Radical = sun zao3 Mapping a KCA onto an instructional hypothesis • The case of Chinese characters
Mapping an instructional hypothesis to an instructional intervention • Learning event space
Instructional Event Space Learning Events Instructional Events Assessment Events Explicit or implicit Focus on Valid Features Make Knowledge Accessible Promote Active Processing Schedule events effectively Coordinate multiple events Performance
Knowledge Components Analysis 2 (+2) Knowledge Components: the character as a whole; (plus its meaning) the radical that is part of the character (plus its meaning) Two approaches based on this analysis (1) Dunlap, Liu, & Perfetti; (2) Pavlik Two different Instructional Events manipulations Illustrate 1 here: Feature focus Whole Character = early morning Radical = sun zao3 1. Learning meanings of Chinese characters
Early morning Instructional Event Space Associate character form with meaning Assessment Events Whole Character means x Default (typical) Instructional event Performance
Early morning Instructional Event Space Associate radical with x’ and whole character with x Part of character means x’ Assessment Events Highlighted radical = sun/day Performance Dunlap et al: Instructional event manipulation: semantic radical instruction
Learning English Spelling (Background knowledge and feature focusing themes) Dunlap, Juffs, Friedline, Perfetti
KC analysis of English spelling • phonology—orthography • /breit/--brate • /hiyl/--heel • /hiyl/--heal • So: phonology-semantics-orthography
Feature focusing interventions • 130 students in levels 3 4, & 5 • Interventions: • “Pure” feature focus: form only (pronunciation-spelling pairs) • Meaning mediated focus: form + meaning (pronunciation-meaning-spelling triads) • 7 sessions, 30 minutes per session over 7 weeks
Control conditions for in-vivo experiments • Typical control conditions • Existing classroom instruction • Textbook & exercise problems • For cog tutors: • Another tutoring system • Human tutoring • A control intervention; • 2 plausible interventions—which is more effective
Learning Assessments • Immediate Learning • Long-term retention • Transfer • Over content, form, testing situations • Accelerated Future Learning • New content; learning measure
Instructional Event Space Learning Events Instructional Events Assessment Events Explicit or implicit Focus on Valid Features Make Knowledge Accessible Promote Active Processing Schedule events effectively Coordinate multiple events • Learning • Long term retention • Transfer • Accelerated future learning Performance
Transfer illustrated: Liu, Wang, Perfetti Chinese tone perception study • In-vivo study • Traditional classroom (not online) • Materials from students’ textbook • New materials each week for 8 weeks of term 1 • Term 2 continued this, and added novel syllables unfamiliar to the student • 3 instructional conditions • tone number + pin yin, contour + pin-yin; contour only • Hint system • (CTAT) Tutors presented materials in 3 different instructional interfaces, according to the 3 conditions • Data shop logged individual student data
Data from Liu et al tone study Learning curves week-by-week
Multiple kinds of transfer • Liu et al shows 2 kinds of materials transfer • Within term 1, learning sessions, each syllable to be learned was different but familiar. So transfer of learning to familiar items • At second term, there were unfamiliar syllables. So transfer of learning to unfamiliar items. (Not so good.)
Accelerated future learning Score Ordinary transfer Pre Post Physics Training Example of acceleration of future learning (Min Chi & VanLehn) • First probability, then physics. During probability only, • Half students taught an explicit strategy • Half not taught a strategy (normal instruction) Score Pre Post Probability Training
Creating assessments • General strategy: • Guided by cognitive task analysis (pre-test as well) including learning goals and specific knowledge components • Include some items from the pre-test • Check for basic learning • Some items similar to training items • Measures near-transfer • Some problems dissimilar to training problems • Measures far-transfer
Mistakes to avoid in test design • Tests that are • Too difficult • Too easy • Too long • Tests that • Fail to represent instructed content • Missing content; over sampling from some content • Depend too much on background knolwedge Notice problems in test means Notice variances
Interpreting test results as learning • Post-test in relation to pre-test. 2 strategies: • ANOVA on • gain scores • First check pre-test equivalence • Not recommended if pre-tests not equivalent • Pre-test, post test as within-subjects variable (t-tests for non-independent samples) • ANCOVA. Post-tests scores are dependent variable; pre-test scores are co-variate
Plot learning results • Bar graphs for instructional conditions • Differences due to conditions • Learning Curves • Growth over time/instruction
Learning Curves Error rate Weekly sessions over 2 terms
Learning Curves Error rate Weekly sessions over 2 terms PSLC summer school 2009 38
A final word on experiments In-vivo limitations The role of (in-vitro) laboratory studies