Nothing
fdp.sdf <- function(freq, d, sigma2=1)
sigma2 / ((2*sin(pi * freq))^2)^d
bandpass.fdp <- function(a, b, d)
2 * integrate(fdp.sdf, lower=a, upper=b, d=d)$value
spp.sdf <- function(freq, d, fG, sigma2=1)
sigma2 * abs(2 * (cos(2*pi*freq) - cos(2*pi*fG)))^(-2*d)
spp2.sdf <- function(freq, d1, f1, d2, f2, sigma2=1) {
sigma2 * abs(2 * (cos(2*pi*freq) - cos(2*pi*f1)))^(-2 * d1) *
abs(2 * (cos(2*pi*freq) - cos(2*pi*f2)))^(-2 * d2)
}
sfd.sdf <- function(freq, s, d, sigma2=1)
sigma2 / (2 * (1 - cos(s * 2*pi*freq)))^d
bandpass.spp <- function(a, b, d, fG) {
if(fG > a && fG < b) {
result1 <- integrate(spp.sdf, lower=a, upper=fG, d=d, fG=fG)$value
result2 <- integrate(spp.sdf, lower=fG, upper=b, d=d, fG=fG)$value
}
else {
result1 <- integrate(spp.sdf, lower=a, upper=b, d=d, fG=fG)$value
result2 <- 0
}
return(2*(result1 + result2))
}
bandpass.spp2 <- function(a, b, d1, f1, d2, f2) {
a1 <- a
b1 <- b
if(a1 < f1 && b1 > f2) {
a2 <- f1
b2 <- f2
result1 <- integrate(spp2.sdf, a1, a2, d1=d1, f1=f1, d2=d2, f2=f2)$value
result2 <- integrate(spp2.sdf, a1, b2, d1=d1, f1=f1, d2=d2, f2=f2)$value
result3 <- integrate(spp2.sdf, b2, b1, d1=d1, f1=f1, d2=d2, f2=f2)$value
}
else {
if(a1 < f1 && b1 < f2) {
a2 <- f1
result1 <- integrate(spp2.sdf, a1, a2, d1=d1, f1=f1, d2=d2, f2=f2)$value
result2 <- integrate(spp2.sdf, a2, b1, d1=d1, f1=f1, d2=d2, f2=f2)$value
result3 <- 0
}
else {
if(a1 < f1 && b1 > f1 && b1 < f2) {
a2 <- f1
result1 <- integrate(spp2.sdf, a1, a2, d1=d1, f1=f1, d2=d2, f2=f2)$value
result2 <- integrate(spp2.sdf, a2, b1, d1=d1, f1=f1, d2=d2, f2=f2)$value
result3 <- 0
}
else {
if(a1 > f1 && a1 < f2 && b1 > f2) {
a2 <- f2
result1 <- integrate(spp2.sdf, a1, a2, d1=d1, f1=f1, d2=d2, f2=f2)$value
result2 <- integrate(spp2.sdf, a2, b1, d1=d1, f1=f1, d2=d2, f2=f2)$value
result3 <- 0
}
else {
result1 <- integrate(spp2.sdf, a1, b1, d1=d1, f1=f1, d2=d2, f2=f2)$value
result2 <- 0
result3 <- 0
}
}
}
}
return(2*(result1 + result2 + result3))
}
Hypergeometric <- function(a, b, c, z) {
## Recursive implementation taken from Numerical Recipes in C (6.12)
## Press, Teukolsky, Vetterling and Flannery (1992)
fac <- 1
temp <- fac
aa <- a
bb <- b
cc <- c
for(n in 1:1000) {
fac <- fac * (aa * bb) / cc
fac <- fac * z / n
series <- temp + fac
if(series == temp)
return(series)
temp <- series
aa <- aa + 1
bb <- bb + 1
cc <- cc + 1
}
stop("convergence failure in Hypergeometric")
}
spp.var <- function(d, fG, sigma2=1) {
## Hypergeometric series representation of the variance taken from
## Lapsa (1997)
omega <- 2*pi*fG
A <- sigma2/2/sqrt(pi) * gamma(1-2*d) / gamma(3/2 - 2*d) * sin(omega)^(1-4*d)
P1 <- Hypergeometric(1-2*d, 1-2*d, 3/2 - 2*d, sin(omega/2)^2)
P2 <- Hypergeometric(1-2*d, 1-2*d, 3/2 - 2*d, cos(omega/2)^2)
return(A * (P1 + P2))
}
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