PSUBDBC: Analysis: DBC experiments in split-plot
In AgronomiaR/AgroR: Experimental Statistics and Graphics for Agricultural Sciences
Description
Usage
Arguments
Value
Note
Author(s)
References
Examples
View source: R/PSUBDBC_function.R
Description
Analysis of an experiment conducted in a randomized block design in a split-plot scheme using fixed effects analysis of variance.
Usage
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
PSUBDBC(
f1,
f2,
block,
response,
norm = "sw",
homog = "bt",
alpha.f = 0.05,
alpha.t = 0.05,
quali = c(TRUE, TRUE),
mcomp = "tukey",
grau = NA,
transf = 1,
constant = 0,
geom = "bar",
theme = theme_classic(),
ylab = "Response",
xlab = "",
color = "rainbow",
textsize = 12,
dec = 3,
legend = "Legend",
errorbar = TRUE,
addmean = TRUE,
ylim = NA,
point = "mean_se",
fill = "lightblue",
angle = 0,
family = "sans",
posi = "right",
angle.label = 0
)
Arguments
f1
Numeric or complex vector with plot levels
f2
Numeric or complex vector with subplot levels
block
Numeric or complex vector with blocks
response
Numeric vector with responses
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)
alpha.t
Significance level of the multiple comparison test (default is 0.05)
quali
Defines whether the factor is quantitative or qualitative (qualitative)
mcomp
Multiple comparison test (Tukey (default), LSD, Scott-Knott and Duncan)
grau
Degree of polynomial in case of quantitative factor (default is 1)
transf
Applies data transformation (default is 1; for log consider 0)
constant
Add a constant for transformation (enter value)
geom
Graph type (columns or segments (For simple effect only))
theme
ggplot2 theme (default is theme_classic())
ylab
Variable response name (Accepts the expression() function)
xlab
Treatments name (Accepts the expression() function)
color
When the columns are different colors (Set fill-in argument as "trat")
textsize
Font size (default is 12)
dec
Number of cells (default is 3)
legend
Legend title name
errorbar
Plot the standard deviation bar on the graph (In the case of a segment and column graph) - default is TRUE
addmean
Plot the average value on the graph (default is TRUE)
ylim
y-axis limit
point
Point type for regression ("mean_se","mean_sd","mean" or "all")
fill
Defines chart color (to generate different colors for different treatments, define fill = "trat")
angle
x-axis scale text rotation
family
Font family (default is sans)
posi
Legend position
angle.label
Label angle
Value
The table of analysis of variance, the test of normality of errors (Shapiro-Wilk, Lilliefors, Anderson-Darling, Cramer-von Mises, Pearson and Shapiro-Francia), the test of homogeneity of variances (Bartlett), the test of independence of Durbin-Watson errors, the test of multiple comparisons (Tukey, LSD, Scott-Knott or Duncan) or adjustment of regression models up to grade 3 polynomial, in the case of quantitative treatments. Non-parametric analysis can be used by the Friedman test. The column chart for qualitative treatments is also returned. The function also returns a standardized residual plot.
Note
The ordering of the graph is according to the sequence in which the factor levels are arranged in the data sheet. The bars of the column and segment graphs are standard deviation.
In the final output when transformation (transf argument) is different from 1, the columns resp and respo in the mean test are returned, indicating transformed and non-transformed mean, respectively.
Author(s)
Gabriel Danilo Shimizu
References
Principles and procedures of statistics a biometrical approach Steel, Torry and Dickey. Third Edition 1997
Multiple comparisons theory and methods. Departament of statistics the Ohio State University. USA, 1996. Jason C. Hsu. Chapman Hall/CRC.
Practical Nonparametrics Statistics. W.J. Conover, 1999
Ramalho M.A.P., Ferreira D.F., Oliveira A.C. 2000. Experimentacao em Genetica e Melhoramento de Plantas. Editora UFLA.
Scott R.J., Knott M. 1974. A cluster analysis method for grouping mans in the analysis of variance. Biometrics, 30, 507-512.
Examples
1
2
3
4
5
6
7
8
9
10
11
12
13
#==============================
# Example tomate
#==============================
library(AgroR)
data(tomate)
with(tomate, PSUBDBC(parc, subp, bloco, resp, ylab="Dry mass (g)"))
#==============================
# Example orchard
#==============================
library(AgroR)
data(orchard)
with(orchard, PSUBDBC(A, B, Bloco, Resp, ylab="CBM"))
AgronomiaR/AgroR documentation built on Nov. 14, 2021, 12:10 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Description Usage Arguments Value Note Author(s) References Examples
View source: R/PSUBDBC_function.R
Description
Analysis of an experiment conducted in a randomized block design in a split-plot scheme using fixed effects analysis of variance.
Usage
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 | PSUBDBC(
f1,
f2,
block,
response,
norm = "sw",
homog = "bt",
alpha.f = 0.05,
alpha.t = 0.05,
quali = c(TRUE, TRUE),
mcomp = "tukey",
grau = NA,
transf = 1,
constant = 0,
geom = "bar",
theme = theme_classic(),
ylab = "Response",
xlab = "",
color = "rainbow",
textsize = 12,
dec = 3,
legend = "Legend",
errorbar = TRUE,
addmean = TRUE,
ylim = NA,
point = "mean_se",
fill = "lightblue",
angle = 0,
family = "sans",
posi = "right",
angle.label = 0
)
|
Arguments
f1 |
Numeric or complex vector with plot levels |
f2 |
Numeric or complex vector with subplot levels |
block |
Numeric or complex vector with blocks |
response |
Numeric vector with responses |
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) |
alpha.t |
Significance level of the multiple comparison test (default is 0.05) |
quali |
Defines whether the factor is quantitative or qualitative (qualitative) |
mcomp |
Multiple comparison test (Tukey (default), LSD, Scott-Knott and Duncan) |
grau |
Degree of polynomial in case of quantitative factor (default is 1) |
transf |
Applies data transformation (default is 1; for log consider 0) |
constant |
Add a constant for transformation (enter value) |
geom |
Graph type (columns or segments (For simple effect only)) |
theme |
ggplot2 theme (default is theme_classic()) |
ylab |
Variable response name (Accepts the expression() function) |
xlab |
Treatments name (Accepts the expression() function) |
color |
When the columns are different colors (Set fill-in argument as "trat") |
textsize |
Font size (default is 12) |
dec |
Number of cells (default is 3) |
legend |
Legend title name |
errorbar |
Plot the standard deviation bar on the graph (In the case of a segment and column graph) - default is TRUE |
addmean |
Plot the average value on the graph (default is TRUE) |
ylim |
y-axis limit |
point |
Point type for regression ("mean_se","mean_sd","mean" or "all") |
fill |
Defines chart color (to generate different colors for different treatments, define fill = "trat") |
angle |
x-axis scale text rotation |
family |
Font family (default is sans) |
posi |
Legend position |
angle.label |
Label angle |
Value
The table of analysis of variance, the test of normality of errors (Shapiro-Wilk, Lilliefors, Anderson-Darling, Cramer-von Mises, Pearson and Shapiro-Francia), the test of homogeneity of variances (Bartlett), the test of independence of Durbin-Watson errors, the test of multiple comparisons (Tukey, LSD, Scott-Knott or Duncan) or adjustment of regression models up to grade 3 polynomial, in the case of quantitative treatments. Non-parametric analysis can be used by the Friedman test. The column chart for qualitative treatments is also returned. The function also returns a standardized residual plot.
Note
The ordering of the graph is according to the sequence in which the factor levels are arranged in the data sheet. The bars of the column and segment graphs are standard deviation.
In the final output when transformation (transf argument) is different from 1, the columns resp and respo in the mean test are returned, indicating transformed and non-transformed mean, respectively.
Author(s)
Gabriel Danilo Shimizu
References
Principles and procedures of statistics a biometrical approach Steel, Torry and Dickey. Third Edition 1997
Multiple comparisons theory and methods. Departament of statistics the Ohio State University. USA, 1996. Jason C. Hsu. Chapman Hall/CRC.
Practical Nonparametrics Statistics. W.J. Conover, 1999
Ramalho M.A.P., Ferreira D.F., Oliveira A.C. 2000. Experimentacao em Genetica e Melhoramento de Plantas. Editora UFLA.
Scott R.J., Knott M. 1974. A cluster analysis method for grouping mans in the analysis of variance. Biometrics, 30, 507-512.
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 | #==============================
# Example tomate
#==============================
library(AgroR)
data(tomate)
with(tomate, PSUBDBC(parc, subp, bloco, resp, ylab="Dry mass (g)"))
#==============================
# Example orchard
#==============================
library(AgroR)
data(orchard)
with(orchard, PSUBDBC(A, B, Bloco, Resp, ylab="CBM"))
|
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.