util_cauchy_aic: Calculate Akaike Information Criterion (AIC) for Cauchy...
In TidyDensity: Functions for Tidy Analysis and Generation of Random Data
View source: R/utils-aic-cauchy.R
util_cauchy_aic R Documentation
Calculate Akaike Information Criterion (AIC) for Cauchy Distribution
Description
This function estimates the parameters of a Cauchy distribution from the
provided data using maximum likelihood estimation, and then calculates the
AIC value based on the fitted distribution.
Usage
util_cauchy_aic(.x)
Arguments
.x
A numeric vector containing the data to be fitted to a Cauchy
distribution.
Details
This function calculates the Akaike Information Criterion (AIC) for a Cauchy
distribution fitted to the provided data.
This function fits a Cauchy distribution to the provided data using maximum
likelihood estimation. It first estimates the initial parameters of the
Cauchy distribution using the method of moments. Then, it optimizes the
negative log-likelihood function using the provided data and the initial
parameter estimates. Finally, it calculates the AIC value based on the
fitted distribution.
Initial parameter estimates: The function uses the method of moments estimates
for the initial location and scale parameters of the Cauchy distribution.
Optimization method: The function uses the optim function for optimization.
You might explore different optimization methods within optim for potentially
better performance.
Goodness-of-fit: While AIC is a useful metric for model comparison, it's
recommended to also assess the goodness-of-fit of the chosen model using
visualization and other statistical tests.
Value
The AIC value calculated based on the fitted Cauchy distribution to the
provided data.
Author(s)
Steven P. Sanderson II, MPH
See Also
Other Utility:
check_duplicate_rows(),
convert_to_ts(),
quantile_normalize(),
tidy_mcmc_sampling(),
util_beta_aic(),
util_binomial_aic(),
util_chisq_aic(),
util_exponential_aic(),
util_f_aic(),
util_gamma_aic(),
util_generalized_beta_aic(),
util_generalized_pareto_aic(),
util_geometric_aic(),
util_hypergeometric_aic(),
util_inverse_burr_aic(),
util_inverse_pareto_aic(),
util_inverse_weibull_aic(),
util_logistic_aic(),
util_lognormal_aic(),
util_negative_binomial_aic(),
util_normal_aic(),
util_paralogistic_aic(),
util_pareto1_aic(),
util_pareto_aic(),
util_poisson_aic(),
util_t_aic(),
util_triangular_aic(),
util_uniform_aic(),
util_weibull_aic(),
util_zero_truncated_binomial_aic(),
util_zero_truncated_geometric_aic(),
util_zero_truncated_negative_binomial_aic(),
util_zero_truncated_poisson_aic()
Examples
# Example 1: Calculate AIC for a sample dataset
set.seed(123)
x <- rcauchy(30)
util_cauchy_aic(x)
TidyDensity documentation built on May 29, 2024, 11:06 a.m.
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View source: R/utils-aic-cauchy.R
| util_cauchy_aic | R Documentation |
Calculate Akaike Information Criterion (AIC) for Cauchy Distribution
Description
This function estimates the parameters of a Cauchy distribution from the provided data using maximum likelihood estimation, and then calculates the AIC value based on the fitted distribution.
Usage
util_cauchy_aic(.x)
Arguments
.x |
A numeric vector containing the data to be fitted to a Cauchy distribution. |
Details
This function calculates the Akaike Information Criterion (AIC) for a Cauchy distribution fitted to the provided data.
This function fits a Cauchy distribution to the provided data using maximum likelihood estimation. It first estimates the initial parameters of the Cauchy distribution using the method of moments. Then, it optimizes the negative log-likelihood function using the provided data and the initial parameter estimates. Finally, it calculates the AIC value based on the fitted distribution.
Initial parameter estimates: The function uses the method of moments estimates for the initial location and scale parameters of the Cauchy distribution.
Optimization method: The function uses the optim function for optimization. You might explore different optimization methods within optim for potentially better performance.
Goodness-of-fit: While AIC is a useful metric for model comparison, it's recommended to also assess the goodness-of-fit of the chosen model using visualization and other statistical tests.
Value
The AIC value calculated based on the fitted Cauchy distribution to the provided data.
Author(s)
Steven P. Sanderson II, MPH
See Also
Other Utility:
check_duplicate_rows(),
convert_to_ts(),
quantile_normalize(),
tidy_mcmc_sampling(),
util_beta_aic(),
util_binomial_aic(),
util_chisq_aic(),
util_exponential_aic(),
util_f_aic(),
util_gamma_aic(),
util_generalized_beta_aic(),
util_generalized_pareto_aic(),
util_geometric_aic(),
util_hypergeometric_aic(),
util_inverse_burr_aic(),
util_inverse_pareto_aic(),
util_inverse_weibull_aic(),
util_logistic_aic(),
util_lognormal_aic(),
util_negative_binomial_aic(),
util_normal_aic(),
util_paralogistic_aic(),
util_pareto1_aic(),
util_pareto_aic(),
util_poisson_aic(),
util_t_aic(),
util_triangular_aic(),
util_uniform_aic(),
util_weibull_aic(),
util_zero_truncated_binomial_aic(),
util_zero_truncated_geometric_aic(),
util_zero_truncated_negative_binomial_aic(),
util_zero_truncated_poisson_aic()
Examples
# Example 1: Calculate AIC for a sample dataset
set.seed(123)
x <- rcauchy(30)
util_cauchy_aic(x)
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.
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