| mixmod_regression {weibulltools} | R Documentation |
Mixture Model Identification using Segmented Regression
Description
This function uses piecewise linear regression to divide the data into subgroups. See 'Details'.
Usage
mixmod_regression(x, ...)
## S3 method for class 'wt_cdf_estimation'
mixmod_regression(
x,
distribution = c("weibull", "lognormal", "loglogistic"),
conf_level = 0.95,
k = 2,
control = segmented::seg.control(),
...
)
Arguments
x |
A |
... |
Further arguments passed to or from other methods. Currently not used. |
distribution |
Supposed distribution of the random variable. |
conf_level |
Confidence level of the interval. |
k |
Number of mixture components. If the data should be split in an
automated fashion, |
control |
Output of the call to seg.control, which is passed to segmented.lm. See 'Examples' for usage. |
Details
The segmentation process is based on the lifetime realizations of failed units and their corresponding estimated failure probabilities for which intact items are taken into account. It is performed with the support of segmented.lm.
Segmentation can be done with a specified number of subgroups or in an automated
fashion (see argument k). The algorithm tends to overestimate the number of
breakpoints when the separation is done automatically (see 'Warning' in
segmented.lm).
In the context of reliability analysis it is important that the main types of failures can be identified and analyzed separately. These are
early failures,
random failures and
wear-out failures.
In order to reduce the risk of overestimation as well as being able to consider
the main types of failures, a maximum of three subgroups (k = 3) is recommended.
Value
A list with classes wt_model and wt_rank_regression if no breakpoint
was detected. See rank_regression.
A list with classes wt_model and wt_mixmod_regression if at least one
breakpoint was determined. The length of the list depends on the number of
identified subgroups. Each list element contains the information provided by
rank_regression. In addition, the returned tibble data of each list element
only retains information on the failed units and has two more columns:
-
q: Quantiles of the standard distribution calculated from columnprob. -
group: Membership to the respective segment.
If more than one method was specified in estimate_cdf, the resulting output
is a list with classes wt_model and wt_mixmod_regression_list where each
list element has classes wt_model and wt_mixmod_regression.
References
Doganaksoy, N.; Hahn, G.; Meeker, W. Q., Reliability Analysis by Failure Mode, Quality Progress, 35(6), 47-52, 2002
Examples
# Reliability data preparation:
## Data for mixture model:
data_mix <- reliability_data(
voltage,
x = hours,
status = status
)
## Data for simple unimodal distribution:
data <- reliability_data(
shock,
x = distance,
status = status
)
# Probability estimation with one method:
prob_mix <- estimate_cdf(
data_mix,
methods = "johnson"
)
prob <- estimate_cdf(
data,
methods = "johnson"
)
# Probability estimation for multiple methods:
prob_mix_mult <- estimate_cdf(
data_mix,
methods = c("johnson", "kaplan", "nelson")
)
# Example 1 - Mixture identification using k = 2 two-parametric Weibull models:
mix_mod_weibull <- mixmod_regression(
x = prob_mix,
distribution = "weibull",
conf_level = 0.99,
k = 2
)
# Example 2 - Mixture identification using k = 3 two-parametric lognormal models:
mix_mod_lognorm <- mixmod_regression(
x = prob_mix,
distribution = "lognormal",
k = 3
)
# Example 3 - Mixture identification for multiple methods specified in estimate_cdf:
mix_mod_mult <- mixmod_regression(
x = prob_mix_mult,
distribution = "loglogistic"
)
# Example 4 - Mixture identification using control argument:
mix_mod_control <- mixmod_regression(
x = prob_mix,
distribution = "weibull",
control = segmented::seg.control(display = TRUE)
)
# Example 5 - Mixture identification performs rank_regression for k = 1:
mod <- mixmod_regression(
x = prob,
distribution = "weibull",
k = 1
)