Statistical power calculations constitute an essential first step in the planning of scientific studies. If sufficient summary statistics are available, power calculations are in principle straightforward and computationally light. In designs, which comprise distinct groups (e.g., MZ & DZ twins), sufficient statistics can be calculated within each group, and analyzed in a multi-group model. However, when the number of possible groups is prohibitively large (say, in the hundreds), power calculations on the basis of the summary statistics become impractical. In that case, researchers may resort to Monte Carlo based power studies, which involve the simulation of hundreds or thousands of replicate samples for each specified set of population pa...
<p>Power of detection for the different 2-locus models. Power was estimated as the proportion of ite...
We propose simulating large sets of statistical power calculations and selecting from a long list of...
Next-generation sequencing technologies are making it possible to study the role of rare variants in...
Statistical power calculations constitute an essential first step in the planning of scientific stud...
The power of a statistical test is the probability that it will yield a statistically significant re...
Abstract Background Estimating the required sample size and statistical power for a study is an inte...
Estimation of power is a key step in any study. This review briefly outlines the factors that affect...
The power of a statistical test is the probability that it will yield a statistically significant re...
Power estimations are important for optimizing genotype-phenotype association study designs. However...
In the design of microarray or next-generation sequencing experiments it is crucial to choose the ap...
What is the optimal size of an experiment? How should the practical experimenter determine this opti...
Simulated power using step-down inference procedure with MAGMA, GSEA, GHC, and GBJ (all self-contain...
Using large-sample theory, we present a unified approach to power calculations for family-based asso...
<p>500 simulations were based on haplotype distribution for each of 13 deep sequenced candidate gene...
Background: Log-linear and multinomial modeling offer a flexible framework for genetic association a...
<p>Power of detection for the different 2-locus models. Power was estimated as the proportion of ite...
We propose simulating large sets of statistical power calculations and selecting from a long list of...
Next-generation sequencing technologies are making it possible to study the role of rare variants in...
Statistical power calculations constitute an essential first step in the planning of scientific stud...
The power of a statistical test is the probability that it will yield a statistically significant re...
Abstract Background Estimating the required sample size and statistical power for a study is an inte...
Estimation of power is a key step in any study. This review briefly outlines the factors that affect...
The power of a statistical test is the probability that it will yield a statistically significant re...
Power estimations are important for optimizing genotype-phenotype association study designs. However...
In the design of microarray or next-generation sequencing experiments it is crucial to choose the ap...
What is the optimal size of an experiment? How should the practical experimenter determine this opti...
Simulated power using step-down inference procedure with MAGMA, GSEA, GHC, and GBJ (all self-contain...
Using large-sample theory, we present a unified approach to power calculations for family-based asso...
<p>500 simulations were based on haplotype distribution for each of 13 deep sequenced candidate gene...
Background: Log-linear and multinomial modeling offer a flexible framework for genetic association a...
<p>Power of detection for the different 2-locus models. Power was estimated as the proportion of ite...
We propose simulating large sets of statistical power calculations and selecting from a long list of...
Next-generation sequencing technologies are making it possible to study the role of rare variants in...