data("ha.sts")
print(ha.sts)
plot(ha.sts, type=observed ~ time | unit) # default multivariate type
plot(ha.sts, units=c("mitt", "pank")) # selected units
plot(ha.sts, type=observed ~ time) # aggregated over all districts
## Hook function example
hookFunc <- function() grid(NA,NULL,lwd=1)
plot(ha.sts, hookFunc=hookFunc)
## another multivariate time series example plotted "as.one"
data("measlesDE")
plot(measlesDE, units=1:2, as.one=TRUE, legend.opts=list(cex=0.8))
## more sophisticated plots are offered by package "xts"
if (requireNamespace("xts"))
plot(as.xts.sts(measlesDE))
## Use ISO8601 date formatting (see ?strptime) and no legend
data("salmNewport")
plot(aggregate(salmNewport,by="unit"), xlab="Time (weeks)",
xaxis.tickFreq=list("%m"=atChange,"%G"=atChange),
xaxis.labelFreq=list("%G"=atMedian),xaxis.labelFormat="%G")
## Formatting now also works for daily data (illustrate by artifical
## outbreak converted to sts object by linelist2sts)
set.seed(123)
exposureTimes <- as.Date("2014-03-12") + sample(x=0:25,size=99,replace=TRUE)
sts <- linelist2sts(data.frame(exposure=exposureTimes),
dateCol="exposure",aggregate.by="1 day")
## Plot it with larger ticks for days than usual
surveillance.options("stsTickFactors"=c("%d"=1, "%W"=0.33,
"%V"=0.33, "%m"=1.75, "%Q"=1.25, "%Y"=1.5, "%G"=1.5))
plot(sts,xaxis.tickFreq=list("%d"=atChange,"%m"=atChange),
xaxis.labelFreq=list("%d"=at2ndChange),xaxis.labelFormat="%d-%b",
xlab="Time (days)")
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