Richard Anderson responds to comments regarding his target article Conceptual Distinction between the Critical p Value and the Type I Error Rate in Permutation Testing
In this project, we compared different analysis methods following stratified permuted block design, ...
Two common outcomes of Monte Carlo studies in statistics are bias and Type I error rate. Several ver...
In Brodeur, Cook, and Heyes (2020) we present evidence that instrumental variable (and to a lesser e...
To counter past assertions that permutation testing is not distribution-free, this article clarifies...
In this article Phillip Good responds to Richard Anderson\u27s article Conceptual Distinction betwee...
To counter past assertions that permutation testing is not distribution-free, this article clarifies...
Bryan Manly responds to Richard Anderson\u27s article Conceptual Distinction between the Critical p ...
Anderson (2013) referred to various aspects of permutation p-values. We agree with most of the notio...
Anderson (2013) referred to various aspects of permutation p-values. We agree with most of the notio...
The familywise Type I error rate is a familiar concept in hypothesis testing, whereas the per‑family...
Type I errors are a common problem in factorial ANOVA and ANOVA based analyses. Despite decades of l...
The replication crisis has caused researchers to distinguish between exact replications, which dupli...
Failure to account for family structure within populations or in complex mating designs via uninform...
We develop computational tools that can evaluate the exact size and power of three tests of trend (e...
Conditions under which the analysis of variance will yield inexact p-values or would be inferior in ...
In this project, we compared different analysis methods following stratified permuted block design, ...
Two common outcomes of Monte Carlo studies in statistics are bias and Type I error rate. Several ver...
In Brodeur, Cook, and Heyes (2020) we present evidence that instrumental variable (and to a lesser e...
To counter past assertions that permutation testing is not distribution-free, this article clarifies...
In this article Phillip Good responds to Richard Anderson\u27s article Conceptual Distinction betwee...
To counter past assertions that permutation testing is not distribution-free, this article clarifies...
Bryan Manly responds to Richard Anderson\u27s article Conceptual Distinction between the Critical p ...
Anderson (2013) referred to various aspects of permutation p-values. We agree with most of the notio...
Anderson (2013) referred to various aspects of permutation p-values. We agree with most of the notio...
The familywise Type I error rate is a familiar concept in hypothesis testing, whereas the per‑family...
Type I errors are a common problem in factorial ANOVA and ANOVA based analyses. Despite decades of l...
The replication crisis has caused researchers to distinguish between exact replications, which dupli...
Failure to account for family structure within populations or in complex mating designs via uninform...
We develop computational tools that can evaluate the exact size and power of three tests of trend (e...
Conditions under which the analysis of variance will yield inexact p-values or would be inferior in ...
In this project, we compared different analysis methods following stratified permuted block design, ...
Two common outcomes of Monte Carlo studies in statistics are bias and Type I error rate. Several ver...
In Brodeur, Cook, and Heyes (2020) we present evidence that instrumental variable (and to a lesser e...