The direction of an association at the population-level may be reversed within the subgroups comprising that population—a striking observation called Simpson’s paradox. When facing this pattern, psychologists often view it as anomalous. Here, we argue that Simpson’s paradox is more common than conventionally thought, and typically results in incorrect interpretations – potentially with harmful consequences. We support this claim by drawing on empirical results from cognitive neuroscience, behavior genetics, psychopathology, personality psychology, educational psychology, intelligence research, and simulation studies. We show that Simpson’s Paradox is most likely to occur when inferences are drawn across different levels of explanation (e.g....
This article discusses three statistical paradoxes that pervade epidemiological research: Simpson&ap...
It is possible for a pair of dichotomous, categorical variables to have an overall positive associat...
Tu et al present an analysis of the equivalence of three paradoxes, namely, Simpson's, Lord's, and t...
The direction of an association at the population-level may be reversed within the subgroups compris...
Background In a famous article, Simpson described a hypothetical data example that led to apparently...
We describe a data-driven discovery method that leverages Simpson's paradox to uncover interesting p...
Observational data about human behavior is often heterogeneous, i.e., generated by subgroups within ...
Well known Simpson’s paradox is puzzling and surprising for many, especially for the empirical resea...
Simpson’s paradox refers to the reversal of a statistical relationship between two variables in sub-...
Title: Simpson's paradox Author: Jan Balhar Department: Department of Probability and Mathematical S...
Simpson’s paradox refers to the reversal in the direction of an X versus Y relationship when control...
Simpson\u27s paradox is a phenomenon arising from multivariate statistical analyses that often leads...
This work is aimed at finding potential Simpson’s paradoxes in Big Data. Simpson’s paradox (SP) aris...
An analysis of customer survey data using direct and re-verse linear regression leads to inconsisten...
This paper describes Simpson’s paradox, and explains its serious implications for randomised control...
This article discusses three statistical paradoxes that pervade epidemiological research: Simpson&ap...
It is possible for a pair of dichotomous, categorical variables to have an overall positive associat...
Tu et al present an analysis of the equivalence of three paradoxes, namely, Simpson's, Lord's, and t...
The direction of an association at the population-level may be reversed within the subgroups compris...
Background In a famous article, Simpson described a hypothetical data example that led to apparently...
We describe a data-driven discovery method that leverages Simpson's paradox to uncover interesting p...
Observational data about human behavior is often heterogeneous, i.e., generated by subgroups within ...
Well known Simpson’s paradox is puzzling and surprising for many, especially for the empirical resea...
Simpson’s paradox refers to the reversal of a statistical relationship between two variables in sub-...
Title: Simpson's paradox Author: Jan Balhar Department: Department of Probability and Mathematical S...
Simpson’s paradox refers to the reversal in the direction of an X versus Y relationship when control...
Simpson\u27s paradox is a phenomenon arising from multivariate statistical analyses that often leads...
This work is aimed at finding potential Simpson’s paradoxes in Big Data. Simpson’s paradox (SP) aris...
An analysis of customer survey data using direct and re-verse linear regression leads to inconsisten...
This paper describes Simpson’s paradox, and explains its serious implications for randomised control...
This article discusses three statistical paradoxes that pervade epidemiological research: Simpson&ap...
It is possible for a pair of dichotomous, categorical variables to have an overall positive associat...
Tu et al present an analysis of the equivalence of three paradoxes, namely, Simpson's, Lord's, and t...