## Figure 7.3 from Gencay, Selcuk and Whitcher (2001)
data(ar1)
ar1.modwt <- modwt(ar1, "haar", 6)
ar1.modwt.bw <- brick.wall(ar1.modwt, "haar")
ar1.modwt.var2 <- wave.variance(ar1.modwt.bw, type="gaussian")
ar1.modwt.var <- wave.variance(ar1.modwt.bw, type="nongaussian")
par(mfrow=c(1,1), las=1, mar=c(5,4,4,2)+.1)
matplot(2^(0:5), ar1.modwt.var2[-7,], type="b", log="xy",
xaxt="n", ylim=c(.025, 6), pch="*LU", lty=1, col=c(1,4,4),
xlab="Wavelet Scale", ylab="")
matlines(2^(0:5), as.matrix(ar1.modwt.var)[-7,2:3], type="b",
pch="LU", lty=1, col=3)
axis(side=1, at=2^(0:5))
legend(1, 6, c("Wavelet variance", "Gaussian CI", "Non-Gaussian CI"),
lty=1, col=c(1,4,3), bty="n")
## Figure 7.8 from Gencay, Selcuk and Whitcher (2001)
data(exchange)
returns <- diff(log(as.matrix(exchange)))
returns <- ts(returns, start=1970, freq=12)
wf <- "d4"
J <- 6
demusd.modwt <- modwt(returns[,"DEM.USD"], wf, J)
demusd.modwt.bw <- brick.wall(demusd.modwt, wf)
jpyusd.modwt <- modwt(returns[,"JPY.USD"], wf, J)
jpyusd.modwt.bw <- brick.wall(jpyusd.modwt, wf)
returns.modwt.cov <- wave.covariance(demusd.modwt.bw, jpyusd.modwt.bw)
par(mfrow=c(1,1), las=0, mar=c(5,4,4,2)+.1)
matplot(2^(0:(J-1)), returns.modwt.cov[-(J+1),], type="b", log="x",
pch="*LU", xaxt="n", lty=1, col=c(1,4,4), xlab="Wavelet Scale",
ylab="Wavelet Covariance")
axis(side=1, at=2^(0:7))
abline(h=0)
returns.modwt.cor <- wave.correlation(demusd.modwt.bw, jpyusd.modwt.bw,
N = dim(returns)[1])
par(mfrow=c(1,1), las=0, mar=c(5,4,4,2)+.1)
matplot(2^(0:(J-1)), returns.modwt.cor[-(J+1),], type="b", log="x",
pch="*LU", xaxt="n", lty=1, col=c(1,4,4), xlab="Wavelet Scale",
ylab="Wavelet Correlation")
axis(side=1, at=2^(0:7))
abline(h=0)Run the code above in your browser using DataLab