print.cutter: Print results of cutter that best describe distribution
In HelpersMG: Tools for Environmental Analyses, Ecotoxicology and Various R Functions
print.cutter R Documentation
Print results of cutter that best describe distribution
Description
Print the estimates of cut distribution.
Usage
## S3 method for class 'cutter'
print(x, silent = FALSE, ...)
Arguments
x
A result file generated by cutter
silent
If TRUE does not show the outpout
...
Not used
Details
print.cutter plot result of cutter
Value
Nothing
Author(s)
Marc Girondot marc.girondot@gmail.com
See Also
Other Distributions:
cutter(),
dSnbinom(),
dbeta_new(),
dcutter(),
dggamma(),
logLik.cutter(),
plot.cutter(),
r2norm(),
rcutter(),
rmnorm(),
rnbinom_new()
Examples
## Not run:
library(HelpersMG)
# _______________________________________________________________
# right censored distribution with gamma distribution
# _______________________________________________________________
# Detection limit
DL <- 100
# Generate 100 random data from a gamma distribution
obc <- rgamma(100, scale=20, shape=2)
# remove the data below the detection limit
obc[obc>DL] <- +Inf
# search for the parameters the best fit these censored data
result <- cutter(observations=obc, upper_detection_limit=DL,
cut_method="censored")
result
plot(result, xlim=c(0, 150), breaks=seq(from=0, to=150, by=10))
# _______________________________________________________________
# The same data seen as truncated data with gamma distribution
# _______________________________________________________________
obc <- obc[is.finite(obc)]
# search for the parameters the best fit these truncated data
result <- cutter(observations=obc, upper_detection_limit=DL,
cut_method="truncated")
result
plot(result, xlim=c(0, 150), breaks=seq(from=0, to=150, by=10))
# _______________________________________________________________
# left censored distribution with gamma distribution
# _______________________________________________________________
# Detection limit
DL <- 10
# Generate 100 random data from a gamma distribution
obc <- rgamma(100, scale=20, shape=2)
# remove the data below the detection limit
obc[obc<DL] <- -Inf
# search for the parameters the best fit these truncated data
result <- cutter(observations=obc, lower_detection_limit=DL,
cut_method="censored")
result
plot(result, xlim=c(0, 200), breaks=seq(from=0, to=200, by=10))
# _______________________________________________________________
# left and right censored distribution
# _______________________________________________________________
# Generate 100 random data from a gamma distribution
obc <- rgamma(100, scale=20, shape=2)
# Detection limit
LDL <- 10
# remove the data below the detection limit
obc[obc<LDL] <- -Inf
# Detection limit
UDL <- 100
# remove the data below the detection limit
obc[obc>UDL] <- +Inf
# search for the parameters the best fit these censored data
result <- cutter(observations=obc, lower_detection_limit=LDL,
upper_detection_limit=UDL,
cut_method="censored")
result
plot(result, xlim=c(0, 150), col.DL=c("black", "grey"),
col.unobserved=c("green", "blue"),
breaks=seq(from=0, to=150, by=10))
# _______________________________________________________________
# Example with two values for lower detection limits
# corresponding at two different methods of detection for example
# with gamma distribution
# _______________________________________________________________
obc <- rgamma(50, scale=20, shape=2)
# Detection limit for sample 1 to 50
LDL1 <- 10
# remove the data below the detection limit
obc[obc<LDL1] <- -Inf
obc2 <- rgamma(50, scale=20, shape=2)
# Detection limit for sample 1 to 50
LDL2 <- 20
# remove the data below the detection limit
obc2[obc2<LDL2] <- -Inf
obc <- c(obc, obc2)
# search for the parameters the best fit these censored data
result <- cutter(observations=obc,
lower_detection_limit=c(rep(LDL1, 50), rep(LDL2, 50)),
cut_method="censored")
result
# It is difficult to choose the best set of colors
plot(result, xlim=c(0, 150), col.dist="red",
col.unobserved=c(rgb(red=1, green=0, blue=0, alpha=0.1),
rgb(red=1, green=0, blue=0, alpha=0.2)),
col.DL=c(rgb(red=0, green=0, blue=1, alpha=0.5),
rgb(red=0, green=0, blue=1, alpha=0.9)),
breaks=seq(from=0, to=200, by=10))
# ___________________________________________________________________
# left censored distribution comparison of normal, lognormal and gamma
# ___________________________________________________________________
# Detection limit
DL <- 10
# Generate 100 random data from a gamma distribution
obc <- rgamma(100, scale=20, shape=2)
# remove the data below the detection limit
obc[obc<DL] <- -Inf
# search for the parameters the best fit these truncated data
result_gamma <- cutter(observations=obc, lower_detection_limit=DL,
cut_method="censored", distribution="gamma")
result_gamma
plot(result_gamma, xlim=c(0, 250), breaks=seq(from=0, to=250, by=10))
result_lognormal <- cutter(observations=obc, lower_detection_limit=DL,
cut_method="censored", distribution="lognormal")
result_lognormal
plot(result_lognormal, xlim=c(0, 250), breaks=seq(from=0, to=250, by=10))
result_normal <- cutter(observations=obc, lower_detection_limit=DL,
cut_method="censored", distribution="normal")
result_normal
plot(result_normal, xlim=c(0, 250), breaks=seq(from=0, to=250, by=10))
compare_AICc(gamma=result_gamma,
lognormal=result_lognormal,
normal=result_normal)
# ___________________________________________________________________
# Test for similarity in gamma left censored distribution between two
# datasets
# ___________________________________________________________________
obc1 <- rgamma(100, scale=20, shape=2)
# Detection limit for sample 1 to 50
LDL <- 10
# remove the data below the detection limit
obc1[obc1<LDL] <- -Inf
obc2 <- rgamma(100, scale=10, shape=2)
# remove the data below the detection limit
obc2[obc2<LDL] <- -Inf
# search for the parameters the best fit these censored data
result1 <- cutter(observations=obc1,
distribution="gamma",
lower_detection_limit=LDL,
cut_method="censored")
logLik(result1)
plot(result1, xlim=c(0, 200),
breaks=seq(from=0, to=200, by=10))
result2 <- cutter(observations=obc2,
distribution="gamma",
lower_detection_limit=LDL,
cut_method="censored")
logLik(result2)
plot(result2, xlim=c(0, 200),
breaks=seq(from=0, to=200, by=10))
result_totl <- cutter(observations=c(obc1, obc2),
distribution="gamma",
lower_detection_limit=LDL,
cut_method="censored")
logLik(result_totl)
plot(result_totl, xlim=c(0, 200),
breaks=seq(from=0, to=200, by=10))
compare_AICc(Separate=list(result1, result2),
Common=result_totl, factor.value=1)
compare_BIC(Separate=list(result1, result2),
Common=result_totl, factor.value=1)
## End(Not run)
HelpersMG documentation built on Oct. 5, 2023, 5:08 p.m.
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| print.cutter | R Documentation |
Print results of cutter that best describe distribution
Description
Print the estimates of cut distribution.
Usage
## S3 method for class 'cutter'
print(x, silent = FALSE, ...)
Arguments
x |
A result file generated by cutter |
silent |
If TRUE does not show the outpout |
... |
Not used |
Details
print.cutter plot result of cutter
Value
Nothing
Author(s)
Marc Girondot marc.girondot@gmail.com
See Also
Other Distributions:
cutter(),
dSnbinom(),
dbeta_new(),
dcutter(),
dggamma(),
logLik.cutter(),
plot.cutter(),
r2norm(),
rcutter(),
rmnorm(),
rnbinom_new()
Examples
## Not run:
library(HelpersMG)
# _______________________________________________________________
# right censored distribution with gamma distribution
# _______________________________________________________________
# Detection limit
DL <- 100
# Generate 100 random data from a gamma distribution
obc <- rgamma(100, scale=20, shape=2)
# remove the data below the detection limit
obc[obc>DL] <- +Inf
# search for the parameters the best fit these censored data
result <- cutter(observations=obc, upper_detection_limit=DL,
cut_method="censored")
result
plot(result, xlim=c(0, 150), breaks=seq(from=0, to=150, by=10))
# _______________________________________________________________
# The same data seen as truncated data with gamma distribution
# _______________________________________________________________
obc <- obc[is.finite(obc)]
# search for the parameters the best fit these truncated data
result <- cutter(observations=obc, upper_detection_limit=DL,
cut_method="truncated")
result
plot(result, xlim=c(0, 150), breaks=seq(from=0, to=150, by=10))
# _______________________________________________________________
# left censored distribution with gamma distribution
# _______________________________________________________________
# Detection limit
DL <- 10
# Generate 100 random data from a gamma distribution
obc <- rgamma(100, scale=20, shape=2)
# remove the data below the detection limit
obc[obc<DL] <- -Inf
# search for the parameters the best fit these truncated data
result <- cutter(observations=obc, lower_detection_limit=DL,
cut_method="censored")
result
plot(result, xlim=c(0, 200), breaks=seq(from=0, to=200, by=10))
# _______________________________________________________________
# left and right censored distribution
# _______________________________________________________________
# Generate 100 random data from a gamma distribution
obc <- rgamma(100, scale=20, shape=2)
# Detection limit
LDL <- 10
# remove the data below the detection limit
obc[obc<LDL] <- -Inf
# Detection limit
UDL <- 100
# remove the data below the detection limit
obc[obc>UDL] <- +Inf
# search for the parameters the best fit these censored data
result <- cutter(observations=obc, lower_detection_limit=LDL,
upper_detection_limit=UDL,
cut_method="censored")
result
plot(result, xlim=c(0, 150), col.DL=c("black", "grey"),
col.unobserved=c("green", "blue"),
breaks=seq(from=0, to=150, by=10))
# _______________________________________________________________
# Example with two values for lower detection limits
# corresponding at two different methods of detection for example
# with gamma distribution
# _______________________________________________________________
obc <- rgamma(50, scale=20, shape=2)
# Detection limit for sample 1 to 50
LDL1 <- 10
# remove the data below the detection limit
obc[obc<LDL1] <- -Inf
obc2 <- rgamma(50, scale=20, shape=2)
# Detection limit for sample 1 to 50
LDL2 <- 20
# remove the data below the detection limit
obc2[obc2<LDL2] <- -Inf
obc <- c(obc, obc2)
# search for the parameters the best fit these censored data
result <- cutter(observations=obc,
lower_detection_limit=c(rep(LDL1, 50), rep(LDL2, 50)),
cut_method="censored")
result
# It is difficult to choose the best set of colors
plot(result, xlim=c(0, 150), col.dist="red",
col.unobserved=c(rgb(red=1, green=0, blue=0, alpha=0.1),
rgb(red=1, green=0, blue=0, alpha=0.2)),
col.DL=c(rgb(red=0, green=0, blue=1, alpha=0.5),
rgb(red=0, green=0, blue=1, alpha=0.9)),
breaks=seq(from=0, to=200, by=10))
# ___________________________________________________________________
# left censored distribution comparison of normal, lognormal and gamma
# ___________________________________________________________________
# Detection limit
DL <- 10
# Generate 100 random data from a gamma distribution
obc <- rgamma(100, scale=20, shape=2)
# remove the data below the detection limit
obc[obc<DL] <- -Inf
# search for the parameters the best fit these truncated data
result_gamma <- cutter(observations=obc, lower_detection_limit=DL,
cut_method="censored", distribution="gamma")
result_gamma
plot(result_gamma, xlim=c(0, 250), breaks=seq(from=0, to=250, by=10))
result_lognormal <- cutter(observations=obc, lower_detection_limit=DL,
cut_method="censored", distribution="lognormal")
result_lognormal
plot(result_lognormal, xlim=c(0, 250), breaks=seq(from=0, to=250, by=10))
result_normal <- cutter(observations=obc, lower_detection_limit=DL,
cut_method="censored", distribution="normal")
result_normal
plot(result_normal, xlim=c(0, 250), breaks=seq(from=0, to=250, by=10))
compare_AICc(gamma=result_gamma,
lognormal=result_lognormal,
normal=result_normal)
# ___________________________________________________________________
# Test for similarity in gamma left censored distribution between two
# datasets
# ___________________________________________________________________
obc1 <- rgamma(100, scale=20, shape=2)
# Detection limit for sample 1 to 50
LDL <- 10
# remove the data below the detection limit
obc1[obc1<LDL] <- -Inf
obc2 <- rgamma(100, scale=10, shape=2)
# remove the data below the detection limit
obc2[obc2<LDL] <- -Inf
# search for the parameters the best fit these censored data
result1 <- cutter(observations=obc1,
distribution="gamma",
lower_detection_limit=LDL,
cut_method="censored")
logLik(result1)
plot(result1, xlim=c(0, 200),
breaks=seq(from=0, to=200, by=10))
result2 <- cutter(observations=obc2,
distribution="gamma",
lower_detection_limit=LDL,
cut_method="censored")
logLik(result2)
plot(result2, xlim=c(0, 200),
breaks=seq(from=0, to=200, by=10))
result_totl <- cutter(observations=c(obc1, obc2),
distribution="gamma",
lower_detection_limit=LDL,
cut_method="censored")
logLik(result_totl)
plot(result_totl, xlim=c(0, 200),
breaks=seq(from=0, to=200, by=10))
compare_AICc(Separate=list(result1, result2),
Common=result_totl, factor.value=1)
compare_BIC(Separate=list(result1, result2),
Common=result_totl, factor.value=1)
## End(Not run)
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