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I am looking for a JavaScript function who returns the nearest neighbor of a number. e.g: I am having a coordinate 12,323432/12,234223 and i want to know the nearest coordinate of a set of 20 other coordinates in a database. How to handle that?

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  • If you don't have a spatial DB with the appropriate functions, you can "manually" compute the distances between all coordinate pairs and take the smallest one. May 27, 2013 at 14:06
  • Why don't do it in sql?
    – Igor S.
    May 27, 2013 at 14:06
  • Show us what you've done so far, to accomplish this task.
    – cube
    May 27, 2013 at 14:07
  • i´ve done nothing in code so far. Igor S how it´s possible to do this in SQL?
    – m1crdy
    May 27, 2013 at 14:13
  • install postgis on your db
    – RickyA
    May 27, 2013 at 14:27

2 Answers 2

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The following 3 functions find the nearest coordinate from a javascript array using the Haversine formula.

function toRad(Value) {
    /** Converts numeric degrees to radians */
    return Value * Math.PI / 180;
}

function haversine(lat1,lat2,lng1,lng2){
    rad = 6372.8; // for km Use 3961 for miles
    deltaLat = toRad(lat2-lat1);
    deltaLng = toRad(lng2-lng1);
    lat1 = toRad(lat1);
    lat2 = toRad(lat2);
    a = Math.sin(deltaLat/2) * Math.sin(deltaLat/2) + Math.sin(deltaLng/2) * Math.sin(deltaLng/2) * Math.cos(lat1) * Math.cos(lat2); 
    c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a)); 
    return  rad * c;
}
function calculate(){
    var result = haversine(lat1,coordArray [0][0],lng1,coordArray [0][1]);
        for (var i=1;i<coordArray.length;i++){ 
        var ans = haversine(lat1,coordArray [i][0],lng1,coordArray [i][1]);
        if (ans < result){//nearest 
            result = ans;
        }       
    }
    document.write("Result " +result);
}
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1

Less rounding errors with the Vincenty formula

The Haversine formula suffers from rounding errors for the special (and somewhat unusual) case of antipodal points (on opposite ends of the sphere).

A better choice is therefore the Vincenty formula for the special case of a sphere. It is computationally not more demanding, but suffers less from machine rounding errors.

Here is my Python3 implementation, which runs in any browser using Brython or which one can easily manually transcode to JavaScript:

from math import radians, sin, cos, atan2, sqrt


def vincenty_sphere(lat1,lat2,lon1,lon2):

    lat1 = radians(lat1)
    lat2 = radians(lat2)
    delta_lon = radians(lon2-lon1)

    term1 = (cos(lat2) * sin(delta_lon))**2
    term2 = (cos(lat1) * sin(lat2) - sin(lat1) * cos(lat2) * cos(delta_lon))**2
    numerator = sqrt(term1 + term2)

    denominator = sin(lat1) * sin(lat2) + cos(lat1) * cos(lat2) * cos(delta_lon)

    central_angle = atan2(numerator, denominator) 

    radius = 6372.8    # km

    return radius * central_angle


def station_near(geo):

    lat = geo['latitude']
    lon = geo['longitude']

    nearest = 40042.0    # km
    for s in range(len(STATIONS)):
        distance = vincenty_sphere(lat, STATIONS[s].lat, lon, STATIONS[s].lon)
        if(distance < nearest):
            nearest = distance
            station = s

    return station

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