hdrlevels: Highest Density Region (HDR) Levels
In Japrin/mclust: Gaussian Mixture Modelling for Model-Based Clustering, Classification, and Density Estimation
Description
Usage
Arguments
Details
Value
Author(s)
References
See Also
Examples
Description
Compute the levels of Highest Density Regions (HDRs) for any density and probability levels.
Usage
1
Arguments
density
A vector of density values computed on a set of (observed) evaluation points.
prob
A vector of probability levels in the range [0,1].
Details
From Hyndman (1996), let f(x) be the density function of a random
variable X. Then the 100(1-α)\% HDR is the subset
R(f_α) of the sample space of X such that
R(f_α) = {x : f(x) ≥ f_α }
where f_α is the largest constant such that
Pr( X \in R(f_α)) ≥ 1-α
Value
The function returns a vector of density values corresponding to HDRs at given probability levels.
Author(s)
L. Scrucca
References
Rob J. Hyndman (1996) Computing and Graphing Highest Density Regions. The American Statistician, 50(2):120-126.
See Also
Examples
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# Example: univariate Gaussian
x <- rnorm(1000)
f <- dnorm(x)
a <- c(0.5, 0.25, 0.1)
(f_a <- hdrlevels(f, prob = 1-a))
plot(x, f)
abline(h = f_a, lty = 2)
text(max(x), f_a, labels = paste0("f_", a), pos = 3)
mean(f > f_a[1])
range(x[which(f > f_a[1])])
qnorm(1-a[1]/2)
mean(f > f_a[2])
range(x[which(f > f_a[2])])
qnorm(1-a[2]/2)
mean(f > f_a[3])
range(x[which(f > f_a[3])])
qnorm(1-a[3]/2)
# Example 2: univariate Gaussian mixture
set.seed(1)
cl <- sample(1:2, size = 1000, prob = c(0.7, 0.3), replace = TRUE)
x <- ifelse(cl == 1,
rnorm(1000, mean = 0, sd = 1),
rnorm(1000, mean = 4, sd = 1))
f <- 0.7*dnorm(x, mean = 0, sd = 1) + 0.3*dnorm(x, mean = 4, sd = 1)
a <- 0.25
(f_a <- hdrlevels(f, prob = 1-a))
plot(x, f)
abline(h = f_a, lty = 2)
text(max(x), f_a, labels = paste0("f_", a), pos = 3)
mean(f > f_a)
# find the regions of HDR
ord <- order(x)
f <- f[ord]
x <- x[ord]
x_a <- x[f > f_a]
j <- which.max(diff(x_a))
region1 <- x_a[c(1,j)]
region2 <- x_a[c(j+1,length(x_a))]
plot(x, f, type = "l")
abline(h = f_a, lty = 2)
abline(v = region1, lty = 3, col = 2)
abline(v = region2, lty = 3, col = 3)
Japrin/mclust documentation built on Nov. 18, 2019, 5:21 a.m.
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Description Usage Arguments Details Value Author(s) References See Also Examples
Description
Compute the levels of Highest Density Regions (HDRs) for any density and probability levels.
Usage
1 |
Arguments
density |
A vector of density values computed on a set of (observed) evaluation points. |
prob |
A vector of probability levels in the range [0,1]. |
Details
From Hyndman (1996), let f(x) be the density function of a random variable X. Then the 100(1-α)\% HDR is the subset R(f_α) of the sample space of X such that
R(f_α) = {x : f(x) ≥ f_α }
where f_α is the largest constant such that Pr( X \in R(f_α)) ≥ 1-α
Value
The function returns a vector of density values corresponding to HDRs at given probability levels.
Author(s)
L. Scrucca
References
Rob J. Hyndman (1996) Computing and Graphing Highest Density Regions. The American Statistician, 50(2):120-126.
See Also
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 | # Example: univariate Gaussian
x <- rnorm(1000)
f <- dnorm(x)
a <- c(0.5, 0.25, 0.1)
(f_a <- hdrlevels(f, prob = 1-a))
plot(x, f)
abline(h = f_a, lty = 2)
text(max(x), f_a, labels = paste0("f_", a), pos = 3)
mean(f > f_a[1])
range(x[which(f > f_a[1])])
qnorm(1-a[1]/2)
mean(f > f_a[2])
range(x[which(f > f_a[2])])
qnorm(1-a[2]/2)
mean(f > f_a[3])
range(x[which(f > f_a[3])])
qnorm(1-a[3]/2)
# Example 2: univariate Gaussian mixture
set.seed(1)
cl <- sample(1:2, size = 1000, prob = c(0.7, 0.3), replace = TRUE)
x <- ifelse(cl == 1,
rnorm(1000, mean = 0, sd = 1),
rnorm(1000, mean = 4, sd = 1))
f <- 0.7*dnorm(x, mean = 0, sd = 1) + 0.3*dnorm(x, mean = 4, sd = 1)
a <- 0.25
(f_a <- hdrlevels(f, prob = 1-a))
plot(x, f)
abline(h = f_a, lty = 2)
text(max(x), f_a, labels = paste0("f_", a), pos = 3)
mean(f > f_a)
# find the regions of HDR
ord <- order(x)
f <- f[ord]
x <- x[ord]
x_a <- x[f > f_a]
j <- which.max(diff(x_a))
region1 <- x_a[c(1,j)]
region2 <- x_a[c(j+1,length(x_a))]
plot(x, f, type = "l")
abline(h = f_a, lty = 2)
abline(v = region1, lty = 3, col = 2)
abline(v = region2, lty = 3, col = 3)
|
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