alpha
.dhzeta(x, alpha, log = FALSE)
phzeta(q, alpha, log.p = FALSE)
qhzeta(p, alpha)
rhzeta(n, alpha)
runif
.x
or p
or q
if necessary.log = TRUE
then the logarithm of the density is returned.dhzeta
gives the density,
phzeta
gives the distribution function,
qhzeta
gives the quantile function, and
rhzeta
generates random deviates.hzeta
,
zeta
,
zetaff
,
simulate.vlm
.dhzeta(1:20, 2.1)
rhzeta(20, 2.1)
round(1000 * dhzeta(1:8, 2))
table(rhzeta(1000, 2))
alpha <- 1.1; x <- 1:10
plot(x, dhzeta(x, alpha = alpha), type = "h", ylim = 0:1, lwd = 2,
sub = paste("alpha =", alpha), las = 1, col = "blue", ylab = "Probability",
main = "Haight's zeta: blue = density; orange = distribution function")
lines(x+0.1, phzeta(x, alpha = alpha), col = "orange", lty = 3, lwd = 2,
type = "h")
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