library("strucchangeRcpp") ## Nile data data("Nile") Nile.rcus <- efp(Nile ~ 1, type = "Rec-CUSUM") Nile.ocus <- efp(Nile ~ 1, type = "OLS-CUSUM") Nile.re <- efp(Nile ~ 1, type = "RE") Nile.rmos <- efp(Nile ~ 1, type = "Rec-MOSUM", h = 0.5) Nile.omos <- efp(Nile ~ 1, type = "OLS-MOSUM", h = 0.5) Nile.me <- efp(Nile ~ 1, type = "ME", h = 0.5) sctest(Nile.rcus) sctest(Nile.ocus) sctest(Nile.ocus, alt = TRUE) sctest(Nile.re) sctest(Nile.re, alt = TRUE) sctest(Nile.re, fun = "range") sctest(Nile.rmos) sctest(Nile.omos) sctest(Nile.omos, fun = "range") sctest(Nile.me) sctest(Nile.me, fun = "range") Nile.fs <- Fstats(Nile ~ 1) sctest(Nile.fs, type = "supF") sctest(Nile.fs, type = "aveF") sctest(Nile.fs, type = "expF") breakpoints(Nile.fs) ## Seatbelt data data("UKDriverDeaths") seatbelt <- log10(UKDriverDeaths) seatbelt <- cbind(seatbelt, lag(seatbelt, k = -1), lag(seatbelt, k = -12)) colnames(seatbelt) <- c("y", "ylag1", "ylag12") seatbelt <- window(seatbelt, start = c(1970, 1), end = c(1984,12)) seat.rcus <- efp(y ~ ylag1 + ylag12, data = seatbelt, type = "Rec-CUSUM") seat.ocus <- efp(y ~ ylag1 + ylag12, data = seatbelt, type = "OLS-CUSUM") seat.re <- efp(y ~ ylag1 + ylag12, data = seatbelt, type = "RE") seat.rmos <- efp(y ~ ylag1 + ylag12, data = seatbelt, type = "Rec-MOSUM", h = 0.5) seat.omos <- efp(y ~ ylag1 + ylag12, data = seatbelt, type = "OLS-MOSUM", h = 0.5) seat.me <- efp(y ~ ylag1 + ylag12, data = seatbelt, type = "ME", h = 0.5) sctest(seat.rcus) sctest(seat.ocus) sctest(seat.ocus, alt = TRUE) sctest(seat.re) sctest(seat.re, alt = TRUE) sctest(seat.re, fun = "range") sctest(seat.rmos) sctest(seat.omos) sctest(seat.omos, fun = "range") sctest(seat.me) sctest(seat.me, fun = "range") seat.fs <- Fstats(y ~ ylag1 + ylag12, data = seatbelt, from = 0.1) sctest(seat.fs, type = "supF") sctest(seat.fs, type = "aveF") sctest(seat.fs, type = "expF") breakpoints(seat.fs) ## German M1 data data("GermanM1") LTW.model <- dm ~ dy2 + dR + dR1 + dp + m1 + y1 + R1 + season M1.model <- dm ~ dy2 + dR + dR1 + dp + ecm.res + season M1.ocus <- efp(LTW.model, data = GermanM1, type = "OLS-CUSUM") M1.re <- efp(LTW.model, data = GermanM1, type = "RE") M1.fs <- Fstats(LTW.model, data = GermanM1, from = 0.1) sctest(M1.ocus) sctest(M1.ocus, alt = TRUE) sctest(M1.re) sctest(M1.re, fun = "range") sctest(M1.re, alt = TRUE) sctest(M1.fs, type = "supF") sctest(M1.fs, type = "aveF") sctest(M1.fs, type = "expF") M1 <- historyM1 ols.efp <- efp(M1.model, type = "OLS-CUSUM", data = M1) newborder <- function(k) 1.5778*k/118 ols.mefp <- mefp(ols.efp, period = 2) ols.mefp2 <- mefp(ols.efp, border = newborder) M1 <- GermanM1 ols.mon <- monitor(ols.mefp) ols.mon2 <- monitor(ols.mefp2) ols.mon ols.mon2 ## Grossarl data data("Grossarl") Grossarl.bp <- breakpoints(fraction ~ 1, data = Grossarl, h = 0.1) Grossarl.sm <- summary(Grossarl.bp) Grossarl.sm$breakpoints Grossarl.sm$breakdates round(Grossarl.sm$RSS, 2) confint(Grossarl.bp)