Elevation Profiles in R

First, let's load up our data. The data are available in a gist. You can convert your own GPS data to .csv by following the instructions here, using gpsbabel.

gps <- read.csv("callan.csv",
    header = TRUE)

Next, we can use the function SMA from the package TTR to calculate a moving average of the altitude or elevation data, if we want to smooth out the curve. We can define a constant for the number of data points we want to average to create each moving average value.

If you don't want to convert meters to feet, a metric version of the code is available in the gist (callanMetric.R).

movingN <- 5 # define the n for the moving average calculations
gps$Altitude <- gps$Altitude * 3.281 # convert m to ft
gps$SMA <- SMA(gps$Altitude,
    n = movingN)
gps <- gps[movingN:length(gps$SMA), ] # remove first n-1 points

Next, we want to calculate the distance of each point. You can skip this step if your dataset already includes distances.

Dist <- 0
for(i in 2:length(gps$Longitude)) {
    Dist[i] = spDistsN1(as.matrix(gps[i,c("Longitude", "Latitude")]),
    c(gps$Longitude[i-1], gps$Latitude[i-1]),
    longlat = TRUE) / 1.609 # longlat so distances will be in km, then divide to convert to miles
gps$Dist <- Dist

DistTotal <- 0
for(i in 2:length(gps$Longitude)) {
    DistTotal[i] = Dist[i] + DistTotal[i-1]
gps$DistTotal <- DistTotal

And finally, we can plot our elevation data using geom_ribbons and ggplot:

ggplot(gps, aes(x = DistTotal)) +
geom_ribbon(aes(ymin = 600, # change this to match your min below
        ymax = SMA),
    fill = "#1B9E77") + # put your altitude variable here if not using moving averages
labs(x = "Miles",
    y = "Elevation") +
scale_y_continuous(limits = c(600,1200)) # change this to limits appropriate for your region

Elevation profile in ggplot2

Code and data available in a gist.

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