# Calculating co-ordinate of a point on a path given a distance

I'm working on a project that surveys the condition of a road or highway using a calibrated trip computer connected to a rugged-PC. An operator keys in defect codes as they travel along a pre-defined route.

I need to show an indicator on the map screen that shows the vehicles current position, taking into account the distance data from the trip computer.

I know the exact lat lon co-ordinates at the starting point of each section of road, and the road is made up of a series of points.

The question is: how can I calculate the lat lon co-ordinates of the vehicle assuming that it has continued on the route and traveled a certain distance (e.g. 1.4km). The co-ordinates would be 'locked onto' the road line, as shown in blue on the diagram below.

Thanks, Alex

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You can interpolate the vehicle's position for a given segment of road. So, first calculate how many segments the vehicle has completed, and where on the current segment the vehicle is. –  barrycarter Jun 3 '10 at 14:18

Here is some Java-ish pseudocode, giving a solution using linear interpolation between points.

``````inputs: distance, points

// construct a list of segments from the points
segments = [];
for(point in points) {
if(not first point) {
seg = new segment(last_point, point)
}
last_point = point
}

// calculate current lat and lon
for(segment in segments) {
if(distance < segment.length) {
alpha = distance / segment.length
lat = segment.start.lat * (1.0 - alpha) + segment.end.lat * alpha
lon = segment.start.lon * (1.0 - alpha) + segment.end.lon * alpha
return (lat, lon)
} else {
distance = distance - segment.length
}
}
``````

You might also want to consider spline interpolation, which could be more accurate. It will require some more maths, but the above idea can still be applied.

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Excellent, with a slight tweak this works flawlessly. The point locks directly onto the line, so the accuracy is pretty much spot on. I had to switch the [* (1.0 - alpha)] and [* alpha] in the lat lon calculations to the end otherwise it went backwards and jumped around between each line segment. –  Alex Marshall Jun 7 '10 at 11:40