dic.ad | R Documentation |
Statistical analysis of experiments conducted in a completely randomized with an additional treatment and balanced design with a factor considering the fixed model.
dic.ad(
trat,
response,
responsead,
grau = 1,
norm = "sw",
homog = "bt",
alpha.f = 0.05,
theme = theme_classic(),
ylab = "response",
xlab = "independent",
family = "sans",
posi = "top",
pointsize = 4.5,
linesize = 0.8,
width.bar = NA,
point = "mean_sd"
)
trat |
Numerical or complex vector with treatments |
response |
Numerical vector containing the response of the experiment. |
responsead |
Numerical vector with additional treatment responses |
grau |
Degree of polynomial in case of quantitative factor (default is 1) |
norm |
Error normality test (default is Shapiro-Wilk) |
homog |
Homogeneity test of variances (default is Bartlett) |
alpha.f |
Level of significance of the F test (default is 0.05) |
theme |
ggplot2 theme (default is theme_classic()) |
ylab |
Variable response name (Accepts the expression() function) |
xlab |
Treatments name (Accepts the expression() function) |
family |
Font family |
posi |
Legend position |
pointsize |
Point size |
linesize |
line size (Trendline and Error Bar) |
width.bar |
width of the error bars of a regression graph. |
point |
Defines whether to plot mean ("mean"), mean with standard deviation ("mean_sd" - default) or mean with standard error (default - "mean_se"). For quali=FALSE or quali=TRUE. |
The table of analysis of variance, the test of normality of errors (Shapiro-Wilk ("sw"), Lilliefors ("li"), Anderson-Darling ("ad"), Cramer-von Mises ("cvm"), Pearson ("pearson") and Shapiro-Francia ("sf")), the test of homogeneity of variances (Bartlett ("bt") or Levene ("levene")), the test of independence of Durbin-Watson errors, adjustment of regression models up to grade 3 polynomial. The function also returns a standardized residual plot.
In some experiments, the researcher may study a quantitative factor, such as fertilizer doses, and present a control, such as a reference fertilizer, treated as a qualitative control. In these cases, there is a difference between considering only the residue in the unfolding of the polynomial, removing or not the qualitative treatment, or since a treatment is excluded from the analysis. In this approach, the residue used is also considering the qualitative treatment, a method similar to the factorial scheme with additional control.
Gabriel Danilo Shimizu, shimizu@uel.br
Leandro Simoes Azeredo Goncalves
Rodrigo Yudi Palhaci Marubayashi
datadicad=data.frame(doses = c(rep(c(1:5),e=3)),
resp = c(3,4,3,5,5,6,7,7,8,4,4,5,2,2,3))
with(datadicad,dic.ad(doses, resp, rnorm(3,6,0.1),grau=2))
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.