If you literally just have two random vectors of numbers, you can use a pretty simple technique to get the intersection of both. Just find all points where `x1`

is above `x2`

, and then below it on the next point, or vice-versa. These are the intersection points. Then just use the respective slopes to find the intercept for that segment.

```
set.seed(1)
x1=rnorm(100,0,1)
x2=rnorm(100,1,1)
# Find points where x1 is above x2.
above<-x1>x2
# Points always intersect when above=TRUE, then FALSE or reverse
intersect.points<-which(diff(above)!=0)
# Find the slopes for each line segment.
x1.slopes<-x1[intersect.points+1]-x1[intersect.points]
x2.slopes<-x2[intersect.points+1]-x2[intersect.points]
# Find the intersection for each segment.
x.points<-intersect.points + ((x2[intersect.points] - x1[intersect.points]) / (x1.slopes-x2.slopes))
y.points<-x1[intersect.points] + (x1.slopes*(x.points-intersect.points))
# Plot.
plot(x1,type='l')
lines(x2,type='l',col='red')
points(x.points,y.points,col='blue')
```

`plot(x1,x2, type='l')`

? – Stephen Henderson Dec 11 '13 at 12:47`plot(seq_along(x1), x1, type='l')`

and`lines(seq_along(x2), x2, type='l', col="red")`

– Stephen Henderson Dec 11 '13 at 12:49