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In Search of “What Works” in Online and Distance Education: A Report of Two Meta-Analyses

In Search of “What Works” in Online and Distance Education: A Report of Two Meta-Analyses. Robert M. Bernard, Philip C. Abrami and Eugene Borokhovski Centre for the Study of Learning and Performance Concordia University http://doe.concordia.ca/cslp.

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In Search of “What Works” in Online and Distance Education: A Report of Two Meta-Analyses

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  1. In Search of “What Works” in Online and Distance Education: A Report of Two Meta-Analyses Robert M. Bernard, Philip C. Abrami and Eugene Borokhovski Centre for the Study of Learning and Performance Concordia University http://doe.concordia.ca/cslp Research supported by grants from FQRSC and SSHRC to Bernard and Abrami

  2. Purposes of meta-analysis • Estimate the population central tendency and variability of effect sizes between an intervention (treatment condition) and a control condition. • Explore unexplained variability through the analysis of methodological and substantive coded study features.

  3. What is an effect size? • Standardized difference between a treatment mean and a control mean • Positive if treatment > control • Negative if treatment < control • Basic Equations:

  4. What is a weighted effect size? • Effect size units of analysis are samples that differ in their size (i.e., number of participants) • Inverse variance (1/se2) sample size weighting is applied to each effect size so that large samples are counted more than small samples • Statistical synthesis (averages [g+], variability [Q-statistic], ANOVA, regression) take weighting into account

  5. Distribution1: Homogeneous Gray shaded area is variation left to be explained by moderators. Distribution 2: Heterogeneous No variation left to be explained by moderators. g+ What about variability among effect sizes? The Q-statistic is used to measure variability of effect size (it is similar to a sum of squares and is evaluated with the 2 sampling distribution) Q-statistic is high and significant Q-statistic is low and not significant

  6. Project 1: 2000 – 2004 • Question: How does distance education compare to classroom instruction? (inclusive dates 1985-2002) • Total number of effect sizes: k = 232 • Measures: Achievement, Attitudes and Retention (opposite of drop-out) • Divided into Asynchronous and Synchronous DE Bernard, R. M., Abrami, P. C., Lou, Y. Borokhovski, E., Wade, A., Wozney, L., Wallet, P.A., Fiset, M., & Huang, B. (2004). How does distance education compare to classroom instruction? A meta-analysis of the empirical literature. Review of Educational Research, 74(3), 379-439.

  7. Summary of results: Achievement Achievement Outcomes *Significantly heterogeneous average effect

  8. Summary of results: Attitudes Attitude Outcomes *Significantly heterogeneous average effect

  9. Summary of results: Retention Retention Outcomes *Significantly heterogeneous effect sizes

  10. Primary findings • DE and CI are essentially equal (g+ ≈ 0.0 to low average effect) on all measures • Effect size distributions are heterogeneous; some DE >> CI, some DE << CI • Generally poor methodological quality • Pedagogical study features account for more variation than media study features (Clark, 1994) • Interactive DE an important variable* *Lou, Y., Bernard, R.M., & Abrami, P.C. (2006). Media and pedagogy in undergraduate distance education: A theory-based meta-analysis of empirical literature. Educational Technology Research & Development, 54(2), 141-176.

  11. Project 2: 2005 – present Question: What are the effects of three types of interaction in DE vs. DE studies? (Inclusive dates 1985 to 2006) Two definitions of interaction: • Interaction should refer “in a restrictive manner to cover only those activities where the student is in two-way contact with another person (or persons)” (Daniel & Marquis, 1988, p. 339) • Interactions are “reciprocal events that require at least two objects and two actions. Interactions occur when these objects and actions mutually influence one another (Wagner, 1994, p. 8)

  12. Project 2: 2005 – present Moore (1989) distinctions are: • Three types of interaction • student-student interaction • student-teacher interaction • Student-content interaction Anderson (2003) hypotheses state: • Deep, meaningful learning is produced from 2 out of 3 interactions at a high level • High levels of more than 1 out of 3 interactions will produce satisfying educational experience • Increasing satisfaction through interaction may not be as time or cost-effective as less interactive learning sequences

  13. The unique problem in this meta-analysis • In most meta-analyses, treatment and control designations are unambiguous (e.g., DE vs. CI) • In DE vs. DE studies, which condition is the treatment and which is the control? • Sorted 74 achievement and 44 attitude effects into SS, ST and SC categories • Two judges determined which condition was the “best type” for each category; that group became the treatment and the other the control

  14. Do the three types of interaction differ? Moore’s distinctions Achievement and Attitude Outcomes Moore’s distinctions seem to apply for achievement (equal importance), but not for attitudes (however, samples are low for SS and SC)

  15. Investigating “treatment strength” • Anderson’s hypotheses involve improving the ‘strength’ of interaction treatments • We defined treatment strength as ratings of difference between two conditions Coded strength as: • 0) conditions are equal • 1) treatment is > control • 2) treatment is >> control

  16. Does strengthening interaction improve achievement and attitudes? Anderson’s hypotheses Achievement and Attitude Outcomes Anderson’s first hypothesis about achievement appears to be supported Anderson’s second hypothesis about satisfaction (attitude) appears to be supported, but only to an extent (i.e., only 5 studies in High Category)

  17. Do interaction types differ in strength? Achievement Outcomes Attitude Outcomes

  18. Do interaction combinations differ? Achievement Outcomes Attitude Outcomes

  19. What have we learned about the effects of interaction on achievement? • The presence of any type of interaction enhances achievement outcomes • Increasing cognitive engagement (i.e., providing the conditions for interaction to occur) improves achievement (i.e., learning) • This is especially true for student-content interaction and any combination that involves student-content interaction • Strengthening student-student interaction also appears to influence achievement

  20. What have we learned about the effects of interaction on attitudes (satisfaction)? • The relationship between attitudes and interaction is more complex than for achievement • Student-student interaction seems important • Strengthening interactions (in general) has a modest impact • The role of the teacher in DE seems to have a variable effect on attitudes • There is a slight suggestion that increasing SS + ST has an effect on attitudes

  21. References Anderson, T. (2003). Getting the mix right: An updated and theoretical rationale for interaction. IRRODL, 4(2) [Online] Bernard, R.M., Abrami, P.C., Lou, Y. Borokhovski, E., Wade, A. Wozney, L., Wallet, P.A., Fiset, M., & Huang, B. (2004). How does distance education compare to classroom instruction? A meta-analysis of the empirical literature. Review of Educational Research, 74(3), 379-439. Bernard, R.M., Abrami, P.C., Borokhovski, E., Wade, A., Tamin, R. & Surkes, M. (2008). Examining Three Forms of Interaction in Distance Education: A Meta-Analysis of Between-DE Studies. Manuscript in preparation. Daniel, J., & Marquis, C. (1979). Interaction and independence: Getting the mixture right. Teaching at a Distance, 15, 25-44. Lou, Y., Bernard, R.M., & Abrami, P.C. (2006). Media and pedagogy in undergraduate distance education: A theory-based meta-analysis of empirical literature. Educational Technology Research & Development, 54(2), 141-176. Moore, M.G. (1989). Three types of interaction. American Journal of Distance Education, 3(2), 1-6. Wagner, E.D. (1994). In support of a functional definition of interaction. American Journal of Distance Education, 8(2), 6-26.

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