Consistent Partial Least Squares Path Modeling
This paper resumes the discussion in information systems research on the use of partial least squares (PLS) path modeling and shows that the inconsistency of PLS path coefficient estimates in the case of reflective measurement can have adverse consequences for hypothesis testing. To remedy this, the study introduces a vital extension of PLS: consistent PLS (PLSc). PLSc provides a correction for estimates when PLS is applied to reflective constructs: The path coefficients, inter-construct correlations, and indicator loadings become consistent. The outcome of a Monte Carlo simulation reveals that the bias of PLSc parameter estimates is comparable to that of covariance-based structural equation modeling. Moreover, the outcome shows that PLSc has advantages when using non-normally distributed data. We discuss the implications for IS research and provide guidelines for choosing among structural equation modeling techniques. 12/31/14 THIS IS AN OPEN ACCESS ARTICLE AND IS AVAILABLE ON OUR "OPEN ACCESS" PAGE.
|Author||Theo K. Dijkstra and Jorg Henseler|
|Keywords||PLS, consistent partial least squares, SEM, variance-based structural equation modeling, Monte Carlo simulation|