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inst/scripts/wind.R
In cobs99: Constrained B-splines -- outdated 1999 version
library(cobs99)
data(DublinWind)
attach(DublinWind)##-> speed & day (instead of "wind.x" & "DUB.")
if(!interactive()) postscript("wind.ps", horizontal = TRUE)
stopifnot(identical(day,c(rep(c(rep(1:365,3),1:366),4),
rep(1:365,2))))
nknots <- 13
## Compute the quadratic median smoothing B-spline using SIC
## lambda selection
co.o50 <-
cobs(day,speed,knots.add = TRUE,constraint="periodic", nknots=nknots,
tau = .5,lambda = -1,factor = 3,method = "uniform")
## Since SIC chooses a lambda that corresponds to the smoothest
## possible fit, rerun cobs with a larger lstart value
(lstart <- log(.Machine$double.xmax)^3) # 3.57 e9
co.o5 <-
cobs(day,speed,knots.add = TRUE,constraint = "periodic", nknots = nknots,
tau = .5,lambda = -1,factor = 3,method = "uniform",lstart = lstart)
pcobs.5 <- predict(co.o5, interval = "none")
co.o9 <- ## Compute the .9 quantile smoothing B-spline
cobs(day,speed,knots.add = TRUE,constraint = "periodic",nknots = nknots,
tau = .9,lambda = -1,factor = 3,method = "uniform")
pcobs.9 <- predict(co.o9,interval = "none")
co.o1 <- ## Compute the .1 quantile smoothing B-spline
cobs(day,speed,knots.add = TRUE,constraint = "periodic",nknots = nknots,
tau = .1,lambda = -1,factor = 3,method = "uniform")
pcobs.1 <- predict(co.o1, interval = "none")
## Figure 3 a and 3 b (p.23), side by side:
par(mfrow = c(1,2))
plot(day,speed, pch = 3, cex=0.6, xlab = "DAYS", ylab = "SPEED (knots)")
plot(day,speed,type = "n",xlab = "DAYS", ylab = "SPEED (knots)")
lines(pcobs.5, lwd = 1.5)
lines(pcobs.9, col = 3)
lines(pcobs.1, col = 3)
abline(v = co.o5$knots, lty = 3, col = "gray70")
## rather rug(co.o5$knots, lty = 2)
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cobs99 documentation built on May 2, 2019, 6:12 p.m.
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library(cobs99)
data(DublinWind)
attach(DublinWind)##-> speed & day (instead of "wind.x" & "DUB.")
if(!interactive()) postscript("wind.ps", horizontal = TRUE)
stopifnot(identical(day,c(rep(c(rep(1:365,3),1:366),4),
rep(1:365,2))))
nknots <- 13
## Compute the quadratic median smoothing B-spline using SIC
## lambda selection
co.o50 <-
cobs(day,speed,knots.add = TRUE,constraint="periodic", nknots=nknots,
tau = .5,lambda = -1,factor = 3,method = "uniform")
## Since SIC chooses a lambda that corresponds to the smoothest
## possible fit, rerun cobs with a larger lstart value
(lstart <- log(.Machine$double.xmax)^3) # 3.57 e9
co.o5 <-
cobs(day,speed,knots.add = TRUE,constraint = "periodic", nknots = nknots,
tau = .5,lambda = -1,factor = 3,method = "uniform",lstart = lstart)
pcobs.5 <- predict(co.o5, interval = "none")
co.o9 <- ## Compute the .9 quantile smoothing B-spline
cobs(day,speed,knots.add = TRUE,constraint = "periodic",nknots = nknots,
tau = .9,lambda = -1,factor = 3,method = "uniform")
pcobs.9 <- predict(co.o9,interval = "none")
co.o1 <- ## Compute the .1 quantile smoothing B-spline
cobs(day,speed,knots.add = TRUE,constraint = "periodic",nknots = nknots,
tau = .1,lambda = -1,factor = 3,method = "uniform")
pcobs.1 <- predict(co.o1, interval = "none")
## Figure 3 a and 3 b (p.23), side by side:
par(mfrow = c(1,2))
plot(day,speed, pch = 3, cex=0.6, xlab = "DAYS", ylab = "SPEED (knots)")
plot(day,speed,type = "n",xlab = "DAYS", ylab = "SPEED (knots)")
lines(pcobs.5, lwd = 1.5)
lines(pcobs.9, col = 3)
lines(pcobs.1, col = 3)
abline(v = co.o5$knots, lty = 3, col = "gray70")
## rather rug(co.o5$knots, lty = 2)
Try the cobs99 package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
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We want your feedback!
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