library(simpleMH)
There is no built-in way to define hard limits for the parameter and make sure they never go outside of this range.
The recommended way to address this issue is to handle these cases in the function f
you provide.
For example, to keep parameters in the 0-1 range:
<- function(x) {
p.log.restricted
if (any(x < 0, x > 1)) {
return(-Inf)
}
<- 0.03 # controls 'bananacity'
B -x[1]^2 / 200 - 1 / 2 * (x[2] + B * x[1]^2 - 100 * B)^2
}
<- simpleMH(
res
p.log.restricted,inits = c(a = 0, b = 0),
theta.cov = diag(2),
max.iter = 3000,
coda = TRUE
)summary(res$samples)
#>
#> Iterations = 1:3000
#> Thinning interval = 1
#> Number of chains = 1
#> Sample size per chain = 3000
#>
#> 1. Empirical mean and standard deviation for each variable,
#> plus standard error of the mean:
#>
#> Mean SD Naive SE Time-series SE
#> a 0.4759 0.2780 0.005075 0.02282
#> b 0.7009 0.2439 0.004453 0.02393
#>
#> 2. Quantiles for each variable:
#>
#> 2.5% 25% 50% 75% 97.5%
#> a 0.03932 0.2290 0.4887 0.6855 0.9714
#> b 0.11795 0.5641 0.7432 0.9047 0.9930
plot(res$samples)