# Smoothing GPS tracked route-coordinates

I have some data of coordinates that I recorded. Unfortunatelly they seem to be not realy good. They jump sometimes over the map. So now I´m searching for some flattening or filtering algorithm that would make the route look more realistic.

Currently my only filter is to calculate the max possible meters travelled in a second (in bus or car or walking) and compare them with the coordinates, throwing those away, that are just not possible within a timeframe. So if a person can walk up to 2.5 meters in a second, and I have two coords that are 10 meters away from each other and they were recorded within two seconds, I try to find them and throw them away. This helps a little bit.

This is the code:

``````filters.max_possible_travel = function(data) {
//http://en.wikipedia.org/wiki/Preferred_walking_speed
//I switched to 16, as the route was made by driving with a bus...
var maxMetersPerSec = 16,
i, m, last, result = [];

for(i=0;i<data.length;i++) {
m = data[i];
if (last) {
// seconds between current and last coord
var diff = (m.created.getTime() - last.created.getTime()) / 1000;
// the maximum amount of meters a person,bus,car etc can make per sec.
var maxDistance = diff * maxMetersPerSec;
// the actual distance traveled

if (traveledDistance > maxDistance) {
continue;
} else {
result.push(m);
}
}
last = m;
}
return result;
};
``````

To make things easier for you, I created this fiddle that already implements my first filter and also gives you the ability to add a new filter.

http://jsfiddle.net/z4hB7/7/

Some futher ideas I have:

• throw all coords away that are in a specific radius. This eventually would remove some disturbing coords, if you just stand around for a few minutes
• group all coords by n seconds frames and try to determine the most relevant in this block. Unfortunatelly I dont have any idea how :(

So I think this is a realy interessting issue, I hope you understand everything I was talking about. I thank You guys for any help!

Edit: I found something about Linear least squares and Kalman Filter. I´m into it, though because I´m absolutely not the math expert, I would appreciate any help in this.

EDIT 2 Progress :) I implemented the DouglasPeucker algorithm which @geocodezip promoted to me. The algorithm alone does not fix it all, but the combination of my current "max_possible_travel" it looks almost perfect. If I play a little bit with the second param it will get interessting. Please look at the new fiddle and make sure you check both the filters "walkfilter" and "gdouglaspeucker". http://jsfiddle.net/z4hB7/8/

-

You can try the Douglas Peuker algorithm

The Ramer–Douglas–Peucker algorithm is an algorithm for reducing the number of points in a curve that is approximated by a series of points.

There is at least one implementation for the Google Maps API v3

perl implementation

Javascript implementation code from Bill Chadwick's site:

``````/* Stack-based Douglas Peucker line simplification routine
returned is a reduced google.maps.LatLng array
After code by  Dr. Gary J. Robinson,
Environmental Systems Science Centre,
*/

function GDouglasPeucker (source, kink)
/* source[] Input coordinates in google.maps.LatLngs    */
/* kink in metres, kinks above this depth kept  */
/* kink depth is the height of the triangle abc where a-b and b-c are two consecutive line segments */
{
var n_source, n_stack, n_dest, start, end, i, sig;
var dev_sqr, max_dev_sqr, band_sqr;
var x12, y12, d12, x13, y13, d13, x23, y23, d23;
var F = ((Math.PI / 180.0) * 0.5 );
var index = new Array(); /* aray of indexes of source points to include in the reduced line */
var sig_start = new Array(); /* indices of start & end of working section */
var sig_end = new Array();

/* check for simple cases */

if ( source.length < 3 )
return(source);    /* one or two points */

/* more complex case. initialize stack */

n_source = source.length;
band_sqr = kink * 360.0 / (2.0 * Math.PI * 6378137.0);  /* Now in degrees */
band_sqr *= band_sqr;
n_dest = 0;
sig_start[0] = 0;
sig_end[0] = n_source-1;
n_stack = 1;

/* while the stack is not empty  ... */
while ( n_stack > 0 ){

/* ... pop the top-most entries off the stacks */

start = sig_start[n_stack-1];
end = sig_end[n_stack-1];
n_stack--;

if ( (end - start) > 1 ){  /* any intermediate points ? */

/* ... yes, so find most deviant intermediate point to
either side of line joining start & end points */

x12 = (source[end].lng() - source[start].lng());
y12 = (source[end].lat() - source[start].lat());
if (Math.abs(x12) > 180.0)
x12 = 360.0 - Math.abs(x12);
x12 *= Math.cos(F * (source[end].lat() + source[start].lat()));/* use avg lat to reduce lng */
d12 = (x12*x12) + (y12*y12);

for ( i = start + 1, sig = start, max_dev_sqr = -1.0; i < end; i++ ){

x13 = (source[i].lng() - source[start].lng());
y13 = (source[i].lat() - source[start].lat());
if (Math.abs(x13) > 180.0)
x13 = 360.0 - Math.abs(x13);
x13 *= Math.cos (F * (source[i].lat() + source[start].lat()));
d13 = (x13*x13) + (y13*y13);

x23 = (source[i].lng() - source[end].lng());
y23 = (source[i].lat() - source[end].lat());
if (Math.abs(x23) > 180.0)
x23 = 360.0 - Math.abs(x23);
x23 *= Math.cos(F * (source[i].lat() + source[end].lat()));
d23 = (x23*x23) + (y23*y23);

if ( d13 >= ( d12 + d23 ) )
dev_sqr = d23;
else if ( d23 >= ( d12 + d13 ) )
dev_sqr = d13;
else
dev_sqr = (x13 * y12 - y13 * x12) * (x13 * y12 - y13 * x12) / d12;// solve triangle

if ( dev_sqr > max_dev_sqr  ){
sig = i;
max_dev_sqr = dev_sqr;
}
}

if ( max_dev_sqr < band_sqr ){   /* is there a sig. intermediate point ? */
/* ... no, so transfer current start point */
index[n_dest] = start;
n_dest++;
}
else{
/* ... yes, so push two sub-sections on stack for further processing */
n_stack++;
sig_start[n_stack-1] = sig;
sig_end[n_stack-1] = end;
n_stack++;
sig_start[n_stack-1] = start;
sig_end[n_stack-1] = sig;
}
}
else{
/* ... no intermediate points, so transfer current start point */
index[n_dest] = start;
n_dest++;
}
}

/* transfer last point */
index[n_dest] = n_source-1;
n_dest++;

/* make return array */
var r = new Array();
for(var i=0; i < n_dest; i++)
r.push(source[index[i]]);
return r;

}
``````
-
sounds promising, will give it a try – Luke Apr 20 '13 at 19:06
This looks like machine language code... – Aggressor Nov 30 '15 at 19:53