mcse.q: Compute Monte Carlo standard errors for quantiles.
In statvats/mcmcse: Monte Carlo Standard Errors for MCMC
Description
Usage
Arguments
Value
References
See Also
Examples
Description
Compute Monte Carlo standard errors for quantiles.
Usage
1
Arguments
x
a vector of values from a Markov chain.
q
the quantile of interest.
size
the batch size. The default value is “sqroot”, which uses the square
root of the sample size. A numeric value may be provided if “sqroot” is not
satisfactory.
g
a function such that the qth quantile of the univariate distribution function of
g(x) is the quantity of interest. The default is NULL, which causes the identity
function to be used.
method
the method used to compute the standard error. This is one of “bm”
(batch means, the default), “obm” (overlapping batch means), or
“sub” (subsampling bootstrap).
warn
a logical value indicating whether the function should issue a warning if the sample
size is too small (less than 1,000).
Value
mcse.q returns a list with three elements:
est
an estimate of the qth quantile of the univariate distribution function of g(x).
se
the Monte Carlo standard error.
nsim
The number of samples in the input Markov chain.
References
Flegal, J. M. (2012) Applicability of subsampling bootstrap methods in Markov chain Monte Carlo.
In Wozniakowski, H. and Plaskota, L., editors, Monte Carlo and Quasi-Monte Carlo Methods
2010 (to appear). Springer-Verlag.
Flegal, J. M. and Jones, G. L. (2010) Batch means and spectral variance estimators in Markov
chain Monte Carlo. The Annals of Statistics, 38, 1034–1070.
Flegal, J. M. and Jones, G. L. (2011) Implementing Markov chain Monte Carlo: Estimating with
confidence. In Brooks, S., Gelman, A., Jones, G. L., and Meng, X., editors, Handbook of
Markov Chain Monte Carlo, pages 175–197. Chapman & Hall/CRC Press.
Doss, C. R., Flegal, J. M., Jones, G. L., and Neath, R. C. (2014). Markov chain Monte Carlo estimation of quantiles. Electronic Journal of Statistics, 8, 2448-2478.
Jones, G. L., Haran, M., Caffo, B. S. and Neath, R. (2006) Fixed-width output analysis for Markov
chain Monte Carlo. Journal of the American Statistical Association, 101, 1537–154
.
See Also
mcse.q.mat, which applies mcse.q to each column of a matrix or data frame.
mcse and mcse.mat, which compute standard errors for expectations.
Examples
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## Bivariate Normal with mean (mu1, mu2) and covariance sigma
n <- 1e3
mu <- c(2, 50)
sigma <- matrix(c(1, 0.5, 0.5, 1), nrow = 2)
out <- BVN_Gibbs(n, mu, sigma)
x <- out[,1]
# Estimate the mean, 0.1 quantile, and 0.9 quantile with MCSEs using batch means.
mcse(x)
mcse.q(x, 0.1)
mcse.q(x, 0.9)
# Estimate the mean, 0.1 quantile, and 0.9 quantile with MCSEs using overlapping batch means.
mcse(x, method = "obm")
mcse.q(x, 0.1, method = "obm")
mcse.q(x, 0.9, method = "obm")
# Estimate E(x^2) with MCSE using spectral methods.
g <- function(x) { x^2 }
mcse(x, g = g, method = "tukey")
statvats/mcmcse documentation built on Sept. 12, 2021, 8:22 p.m.
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Description Usage Arguments Value References See Also Examples
Description
Compute Monte Carlo standard errors for quantiles.
Usage
1 |
Arguments
x |
a vector of values from a Markov chain. |
q |
the quantile of interest. |
size |
the batch size. The default value is “ |
g |
a function such that the qth quantile of the univariate distribution function of
g(x) is the quantity of interest. The default is |
method |
the method used to compute the standard error. This is one of “ |
warn |
a logical value indicating whether the function should issue a warning if the sample size is too small (less than 1,000). |
Value
mcse.q returns a list with three elements:
est |
an estimate of the qth quantile of the univariate distribution function of g(x). |
se |
the Monte Carlo standard error. |
nsim |
The number of samples in the input Markov chain. |
References
Flegal, J. M. (2012) Applicability of subsampling bootstrap methods in Markov chain Monte Carlo. In Wozniakowski, H. and Plaskota, L., editors, Monte Carlo and Quasi-Monte Carlo Methods 2010 (to appear). Springer-Verlag.
Flegal, J. M. and Jones, G. L. (2010) Batch means and spectral variance estimators in Markov chain Monte Carlo. The Annals of Statistics, 38, 1034–1070.
Flegal, J. M. and Jones, G. L. (2011) Implementing Markov chain Monte Carlo: Estimating with confidence. In Brooks, S., Gelman, A., Jones, G. L., and Meng, X., editors, Handbook of Markov Chain Monte Carlo, pages 175–197. Chapman & Hall/CRC Press.
Doss, C. R., Flegal, J. M., Jones, G. L., and Neath, R. C. (2014). Markov chain Monte Carlo estimation of quantiles. Electronic Journal of Statistics, 8, 2448-2478. Jones, G. L., Haran, M., Caffo, B. S. and Neath, R. (2006) Fixed-width output analysis for Markov chain Monte Carlo. Journal of the American Statistical Association, 101, 1537–154 .
See Also
mcse.q.mat, which applies mcse.q to each column of a matrix or data frame.
mcse and mcse.mat, which compute standard errors for expectations.
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 | ## Bivariate Normal with mean (mu1, mu2) and covariance sigma
n <- 1e3
mu <- c(2, 50)
sigma <- matrix(c(1, 0.5, 0.5, 1), nrow = 2)
out <- BVN_Gibbs(n, mu, sigma)
x <- out[,1]
# Estimate the mean, 0.1 quantile, and 0.9 quantile with MCSEs using batch means.
mcse(x)
mcse.q(x, 0.1)
mcse.q(x, 0.9)
# Estimate the mean, 0.1 quantile, and 0.9 quantile with MCSEs using overlapping batch means.
mcse(x, method = "obm")
mcse.q(x, 0.1, method = "obm")
mcse.q(x, 0.9, method = "obm")
# Estimate E(x^2) with MCSE using spectral methods.
g <- function(x) { x^2 }
mcse(x, g = g, method = "tukey")
|
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