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In haziqj/ipriorBVS: Bayesian Variable Selection using I-priors
R/ipriorBVS: Bayesian Variable Selection for Linear Models using I-priors
Bayesian variable selection for linear models using I-priors in R. This work is part of the PhD project entitled Regression Modelling with Priors using Fisher Information Covariance Kernels (I-priors). Visit http://phd.haziqj.ml for details.
Benchmark data (Tibshirani, 1996)
A toy data set designed by Tibshirani (1996), often used to compare variable selection methods. n = 50 data points are generated from a linear model with parameters beta = c(3, 1.5, 0, 0, 2, 0, 0, 0) and sigma = 3. The X are generated from a normal distribution with mean zero, and the correlation between the ith and jth variable is 0.5 ^ abs(i - j). This is implemented in the gen_benchmark() function included in the package.
(dat <- gen_benchmark(n = 50, sd = 3, seed = 123))
## n = 50
## p = 8
## SNR2 = 1.787658
Model fit
The model fitted either using formula or non-formula syntax. We are then able to obtain posterior inclusion probabilities (PIPs) for the each variable, and also posterior model probabilities (PMPs). For comparison, Bayes factors and deviances are reported as well.
runjags::runjags.options(silent.jags = TRUE, silent.runjags = TRUE)
(mod <- ipriorBVS(y ~ ., dat))
## PIP 1 2 3 4 5
## X.1 1.000 x x x x x
## X.2 0.840 x x x x x
## X.3 0.568 x x
## X.4 0.524 x x x
## X.5 0.644 x x x
## X.6 0.294
## X.7 0.480 x
## X.8 0.238
## PMP 0.061 0.048 0.041 0.040 0.037
## BF 1.000 0.785 0.662 0.648 0.604
## Deviance 93.76 92.07 91.42 96.29 94.16
Coefficients
The model coefficients are averaged across all probable sub-models, which yields a kind of "model-averaged" coefficients.
coef(mod)
## PIP Mean S.D. 2.5% 97.5%
## (Intercept) 1.000 -0.128 0.459 -1.069 0.739
## X.1 1.000 2.707 0.636 1.588 4.053
## X.2 0.840 1.547 0.878 0.000 2.787
## X.3 0.568 0.607 0.705 0.000 2.119
## X.4 0.524 0.468 0.585 -0.002 1.727
## X.5 0.644 0.858 0.903 -0.110 2.672
## X.6 0.294 -0.158 0.399 -1.273 0.324
## X.7 0.480 0.373 0.523 -0.054 1.582
## X.8 0.238 0.054 0.246 -0.333 0.815
Copyright (C) 2017 Haziq Jamil.
haziqj/ipriorBVS documentation built on Aug. 15, 2022, 12:06 a.m.
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R/ipriorBVS: Bayesian Variable Selection for Linear Models using I-priors
Bayesian variable selection for linear models using I-priors in R. This work is part of the PhD project entitled Regression Modelling with Priors using Fisher Information Covariance Kernels (I-priors). Visit http://phd.haziqj.ml for details.
Benchmark data (Tibshirani, 1996)
A toy data set designed by Tibshirani (1996), often used to compare variable selection methods. n = 50 data points are generated from a linear model with parameters beta = c(3, 1.5, 0, 0, 2, 0, 0, 0) and sigma = 3. The X are generated from a normal distribution with mean zero, and the correlation between the ith and jth variable is 0.5 ^ abs(i - j). This is implemented in the gen_benchmark() function included in the package.
(dat <- gen_benchmark(n = 50, sd = 3, seed = 123))
## n = 50
## p = 8
## SNR2 = 1.787658
Model fit
The model fitted either using formula or non-formula syntax. We are then able to obtain posterior inclusion probabilities (PIPs) for the each variable, and also posterior model probabilities (PMPs). For comparison, Bayes factors and deviances are reported as well.
runjags::runjags.options(silent.jags = TRUE, silent.runjags = TRUE)
(mod <- ipriorBVS(y ~ ., dat))
## PIP 1 2 3 4 5
## X.1 1.000 x x x x x
## X.2 0.840 x x x x x
## X.3 0.568 x x
## X.4 0.524 x x x
## X.5 0.644 x x x
## X.6 0.294
## X.7 0.480 x
## X.8 0.238
## PMP 0.061 0.048 0.041 0.040 0.037
## BF 1.000 0.785 0.662 0.648 0.604
## Deviance 93.76 92.07 91.42 96.29 94.16
Coefficients
The model coefficients are averaged across all probable sub-models, which yields a kind of "model-averaged" coefficients.
coef(mod)
## PIP Mean S.D. 2.5% 97.5%
## (Intercept) 1.000 -0.128 0.459 -1.069 0.739
## X.1 1.000 2.707 0.636 1.588 4.053
## X.2 0.840 1.547 0.878 0.000 2.787
## X.3 0.568 0.607 0.705 0.000 2.119
## X.4 0.524 0.468 0.585 -0.002 1.727
## X.5 0.644 0.858 0.903 -0.110 2.672
## X.6 0.294 -0.158 0.399 -1.273 0.324
## X.7 0.480 0.373 0.523 -0.054 1.582
## X.8 0.238 0.054 0.246 -0.333 0.815
Copyright (C) 2017 Haziq Jamil.
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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