Beliefs about sparsity affect causal experimentation

What is the best way of figuring out the structure of a causal system composed of multiple variables? One prominent idea is that learners should manipulate each candidate variable in isolation to avoid confounds (known as the “Control of Variables” strategy). Here, we demonstrate that this strategy is not always the most efficient method for learning. Using an optimal learner model which aims to minimize the number of tests, we show that when a causal system is sparse, that is, when the outcome of interest has few or even just one actual cause among the candidate variables, it is more efficient to test multiple variables at once. In a series of behavioral experiments, we then show that people are sensitive to causal sparsity when planning causal experiments.

[1]  D. Klahr,et al.  Heuristics for Scientific Experimentation: A Developmental Study , 1993, Cognitive Psychology.

[2]  D. Kuhn Strategies of Knowledge Acquisition , 1995 .

[3]  Thomas L. Griffiths,et al.  Formalizing Neurath’s Ship: Approximate Algorithms for Online Causal Learning , 2016, Psychological review.

[4]  Jan Khre,et al.  The Mathematical Theory of Information , 2012 .

[5]  B. Rehder,et al.  Strategies to intervene on causal systems are adaptively selected , 2015, Cognitive Psychology.

[6]  Amy Perfors,et al.  Hypothesis generation, sparse categories, and the positive test strategy. , 2011, Psychological review.

[7]  Deanna Kuhn,et al.  Development of the isolation of variables scheme in experimental and "natural experiment" contexts. , 1977 .

[8]  J. Piaget,et al.  The Growth of Logical Thinking , 1959 .

[9]  D. Klahr,et al.  All other things being equal: acquisition and transfer of the control of variables strategy. , 1999, Child development.

[10]  Robert S. Siegler,et al.  Development of Problem Solving , 1994 .

[11]  Amy Perfors,et al.  People are sensitive to hypothesis sparsity during category discrimination , 2014, CogSci.

[12]  Amy Perfors,et al.  Sensitivity to hypothesis size during information search. , 2016 .

[13]  Jonathan D. Nelson,et al.  Children’s sequential information search is sensitive to environmental probabilities , 2014, Cognition.

[14]  E. Phelps,et al.  The development of problem-solving strategies. , 1982, Advances in child development and behavior.

[15]  T. Lombrozo,et al.  Children adapt their questions to achieve efficient search , 2015, Cognition.