I would like to create a script that applies a function to subsets of spatial points throughout a data frame using a moving window. Given a data matrix containing a column with latitude positions and a column with longitude positions, I would like to obtain a measure of sinuosity for every 5 consecutive locations in my overall dataset. Sinuosity is defined as the ratio of the actual distance moved along a series of points to the straight-line distance moved between the start and end points. I have already written some “messy’ code to calculate sinuosity over 5 locations, but I now need to know how to write code that will automatically do this for a moving section of 5 locations down my entire data frame (i.e. apply the function to every set of 5 locations from start to end). My R skills are limited and I am struggling to do this.

Below is some example data:

```
df <- structure(list(IndexNo = 1:13, Latitude = c(52.363205, 52.640715,
52.940366, 53.267749, 53.512608, 53.53215, 53.536443, 53.553523,
53.546862, 53.55095, 53.571766, 53.587558, 53.592084), Longitude = c(3.433247,
3.305727, 3.103194, 2.973257, 2.966621, 3.013587, 3.002674, 3.004011,
2.98778, 2.995589, 3.004867, 3.003511, 2.999092)), .Names = c("IndexNo", "Latitude", "Longitude"), class = "data.frame", row.names=c(NA,-13L))
```

I would like to end up with a data frame that looks like this:

```
IndexNo Latitude Longitude Sinuosity
1 52.36321 3.433247 NA
2 52.64072 3.305727 1.0085
3 52.94037 3.103194 1.0085
4 53.26775 2.973257 1.0085
5 53.51261 2.966621 1.0085
6 53.53215 3.013587 1.9392
7 53.53644 3.002674 1.9392
8 53.55352 3.004011 1.9392
9 53.54686 2.987780 1.9392
10 53.55095 2.995589 1.0669
11 53.57177 3.004867 1.0669
12 53.58756 3.003511 1.0669
13 53.59208 2.999092 1.0669
```

Initial long-winded attempt at code for calculating sinuosity for a single section of 5 locations:

```
# To create a subset of the first 5 locations in the data frame
subset<- bird[1:5, c("Latitude", "Longitude","IndexNo")]
library(trip)
# To calculate the straight-line distance between the beginning and end point of a 5-point sequence
straightd<- trackDistance(subset[1,2], subset[1,1], subset[5,2], subset[5,1], longlat=TRUE)
# To calculate the distance between each pair of consecutive points (for a 5-point sequence)
d1<- trackDistance(subset[1,2], subset[1,1], subset[2,2], subset[2,1], longlat=TRUE)
d2<- trackDistance(subset[2,2], subset[2,1], subset[3,2], subset[3,1], longlat=TRUE)
d3<- trackDistance(subset[3,2], subset[3,1], subset[4,2], subset[4,1], longlat=TRUE)
d4<- trackDistance(subset[4,2], subset[4,1], subset[5,2], subset[5,1], longlat=TRUE)
# To return the actual distance between the beginning and end point of a 5-point sequence
actd<- sum(d1,d2,d3,d4)
# Function to calcualte the sinuosity (ratio between the actual distance and the straight-line distance)
sinuosity <- function (x, y) {
x/y
}
new <- sinuosity(actd, straightd)
# To add a sinuosity column to the 5 rows of locations on which the sinuosity index was measured
subset$Sinuosity <- rep(new, nrow(subset))
```

Any help/advice would be greatly appreciated.

`i = seq(1,30, by = 5)`

and use`i, i+1,...i+4`

in your row subscripts? – Codoremifa Oct 17 '13 at 13:24