View source: R/logical_estimation.R
model_and | R Documentation |
model_and
approximates the linear model for the conjunction
of m phenotypes as a function of a set of predictors.
model_and(formula, n, means, covs, predictors, ...)
formula |
an object of class |
n |
sample size. |
means |
named vector of predictor and response means. |
covs |
named matrix of the covariance of all model predictors and the responses. |
predictors |
named list of objects of class |
... |
additional arguments |
an object of class "pcsslm"
.
An object of class "pcsslm"
is a list containing at least the
following components:
call |
the matched call |
terms |
the |
coefficients |
a |
sigma |
the square root of the estimated variance of the random error. |
df |
degrees of freedom, a 3-vector |
fstatistic |
a 3-vector with the value of the F-statistic with its numerator and denominator degrees of freedom. |
r.squared |
|
adj.r.squared |
the above |
cov.unscaled |
a |
Sum Sq |
a 3-vector with the model's Sum of Squares Regression (SSR), Sum of Squares Error (SSE), and Sum of Squares Total (SST). |
wolf_using_2021pcsstools
ex_data <- pcsstools_example[c("g1", "x1", "y4", "y5")]
head(ex_data)
means <- colMeans(ex_data)
covs <- cov(ex_data)
n <- nrow(ex_data)
predictors <- list(
g1 = new_predictor_snp(maf = mean(ex_data$g1) / 2),
x1 = new_predictor_normal(mean = mean(ex_data$x1), sd = sd(ex_data$x1))
)
model_and(
y4 & y5 ~ g1 + x1,
means = means, covs = covs, n = n, predictors = predictors
)
summary(lm(y4 & y5 ~ g1 + x1, data = ex_data))
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