Using Big Data to Sharpen Design-Based Inference in A/B Tests

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Title: Using Big Data to Sharpen Design-Based Inference in A/B Tests
Language: English
Authors: Sales, Adam C., Botelho, Anthony, Patikorn, Thanaporn, Heffernan, Neil T.
Source: International Educational Data Mining Society. 2018.
Availability: International Educational Data Mining Society. e-mail: admin@educationaldatamining.org; Web site: http://www.educationaldatamining.org
Peer Reviewed: Y
Page Count: 7
Publication Date: 2018
Sponsoring Agency: National Science Foundation (NSF)
Institute of Education Sciences (ED)
Contract Number: IIS1636782
ACI1440753
DRL1252297
DRL1109483
DRL1316736
DGE1535428
DRL1031398
R305A120125
R305C100024
Document Type: Reports - Research
Speeches/Meeting Papers
Descriptors: Courseware, Data Analysis, Causal Models, Prediction, Outcomes of Education, Evaluation Methods, Mastery Learning, Skill Development, Intelligent Tutoring Systems, Statistical Bias, Randomized Controlled Trials, Artificial Intelligence
Abstract: Randomized A/B tests in educational software are not run in a vacuum: often, reams of historical data are available alongside the data from a randomized trial. This paper proposes a method to use this historical data--often highdimensional and longitudinal--to improve causal estimates from A/B tests. The method proceeds in two steps: first, fit a machine learning model to the historical data predicting students' outcomes as a function of their covariates. Then, use that model to predict the outcomes of the randomized students in the A/B test. Finally, use design-based methods to estimate the treatment effect in the A/B test, using prediction errors in place of outcomes. This method retains all of the advantages of design-based inference, while, under certain conditions, yielding more precise estimators. This paper will give a theoretical condition under which the method improves statistical precision, and demonstrates it using a deep learning algorithm to help estimate effects in a set of experiments run inside ASSISTments. [For the full proceedings, see ED593090.]
Abstractor: As Provided
IES Funded: Yes
Entry Date: 2019
Accession Number: ED593197
Database: ERIC
FullText Text:
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  Data: Randomized A/B tests in educational software are not run in a vacuum: often, reams of historical data are available alongside the data from a randomized trial. This paper proposes a method to use this historical data--often highdimensional and longitudinal--to improve causal estimates from A/B tests. The method proceeds in two steps: first, fit a machine learning model to the historical data predicting students' outcomes as a function of their covariates. Then, use that model to predict the outcomes of the randomized students in the A/B test. Finally, use design-based methods to estimate the treatment effect in the A/B test, using prediction errors in place of outcomes. This method retains all of the advantages of design-based inference, while, under certain conditions, yielding more precise estimators. This paper will give a theoretical condition under which the method improves statistical precision, and demonstrates it using a deep learning algorithm to help estimate effects in a set of experiments run inside ASSISTments. [For the full proceedings, see ED593090.]
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      – SubjectFull: Causal Models
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      – SubjectFull: Prediction
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      – SubjectFull: Outcomes of Education
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      – SubjectFull: Randomized Controlled Trials
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      – SubjectFull: Artificial Intelligence
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