Repeated measures ANOVA and adjusted F-tests when sphericity is violated: which procedure is best?

• Published in: Frontiers in psychology Vol. 14; p. 1192453
• Main Authors: Blanca, María J., Arnau, Jaume, García-Castro, F. Javier, Alarcón, Rafael, Bono, Roser
• Format: Journal Article
• Language: English
• Published: Frontiers Media S.A 30.08.2023
• Subjects: Greenhouse-Geisser adjustment; Huynh-Feldt adjustment; Mauchly test; power; Psychology; robustness
• ISSN: 1664-1078; 1664-1078
• DOI: 10.3389/fpsyg.2023.1192453

Introduction One-way repeated measures ANOVA requires sphericity. Research indicates that violation of this assumption has an important impact on Type I error. Although more advanced alternative procedures exist, most classical texts recommend the use of adjusted F -tests, which are frequently employed because they are intuitive, easy to apply, and available in most statistical software. Adjusted F -tests differ in the procedure used to estimate the corrective factor ε , the most common being the Greenhouse-Geisser ( F-GG ) and Huynh-Feldt ( F-HF ) adjustments. Although numerous studies have analyzed the robustness of these procedures, the results are inconsistent, thus highlighting the need for further research. Methods The aim of this simulation study was to analyze the performance of the F -statistic, F-GG , and F-HF in terms of Type I error and power in one-way designs with normal data under a variety of conditions that may be encountered in real research practice. Values of ε were fixed according to the Greenhouse–Geisser procedure ( ε ̂ ). We manipulated the number of repeated measures (3, 4, and 6) and sample size (from 10 to 300), with ε ̂ values ranging from the lower to its upper limit. Results Overall, the results showed that the F -statistic becomes more liberal as sphericity violation increases, whereas both F-HF and F-GG control Type I error; of the two, F-GG is more conservative, especially with large values of ε ̂ and small samples. Discussion If different statistical conclusions follow from application of the two tests, we recommend using F-GG for ε ̂ values below 0.60, and F-HF for ε ̂ values equal to or above 0.60.