Geo-Search (Distance) in PHP/MySQL (Performance)
Calculate a bounding box to select a subset of the rows in the WHERE clause of your SQL query, so that you're only executing the expensive distance calculation on that subset of rows rather than against the entire 200k records in your table. The method is described in this article on Movable Type (with PHP code examples). Then you can include the Haversine calculation in your query against that subset to calculate the actual distances, and factor in the HAVING clause at that point.
It's the bounding box that helps your performance, because it means you're only doing the expensive distance calculation on a small subset of your data. This is effectively the same method that Patrick has suggested, but the Movable Type link has extensive explanations of the method, as well as PHP code that you can use to build the bounding box and your SQL query.
EDIT
If you don't think haversine is accurate enough, then there's also the Vincenty formula.
// Vincenty formula to calculate great circle distance between 2 locations expressed as Lat/Long in KM
function VincentyDistance($lat1,$lat2,$lon1,$lon2){
$a = 6378137 - 21 * sin($lat1);
$b = 6356752.3142;
$f = 1/298.257223563;
$p1_lat = $lat1/57.29577951;
$p2_lat = $lat2/57.29577951;
$p1_lon = $lon1/57.29577951;
$p2_lon = $lon2/57.29577951;
$L = $p2_lon - $p1_lon;
$U1 = atan((1-$f) * tan($p1_lat));
$U2 = atan((1-$f) * tan($p2_lat));
$sinU1 = sin($U1);
$cosU1 = cos($U1);
$sinU2 = sin($U2);
$cosU2 = cos($U2);
$lambda = $L;
$lambdaP = 2*M_PI;
$iterLimit = 20;
while(abs($lambda-$lambdaP) > 1e-12 && $iterLimit>0) {
$sinLambda = sin($lambda);
$cosLambda = cos($lambda);
$sinSigma = sqrt(($cosU2*$sinLambda) * ($cosU2*$sinLambda) + ($cosU1*$sinU2-$sinU1*$cosU2*$cosLambda) * ($cosU1*$sinU2-$sinU1*$cosU2*$cosLambda));
//if ($sinSigma==0){return 0;} // co-incident points
$cosSigma = $sinU1*$sinU2 + $cosU1*$cosU2*$cosLambda;
$sigma = atan2($sinSigma, $cosSigma);
$alpha = asin($cosU1 * $cosU2 * $sinLambda / $sinSigma);
$cosSqAlpha = cos($alpha) * cos($alpha);
$cos2SigmaM = $cosSigma - 2*$sinU1*$sinU2/$cosSqAlpha;
$C = $f/16*$cosSqAlpha*(4+$f*(4-3*$cosSqAlpha));
$lambdaP = $lambda;
$lambda = $L + (1-$C) * $f * sin($alpha) * ($sigma + $C*$sinSigma*($cos2SigmaM+$C*$cosSigma*(-1+2*$cos2SigmaM*$cos2SigmaM)));
}
$uSq = $cosSqAlpha*($a*$a-$b*$b)/($b*$b);
$A = 1 + $uSq/16384*(4096+$uSq*(-768+$uSq*(320-175*$uSq)));
$B = $uSq/1024 * (256+$uSq*(-128+$uSq*(74-47*$uSq)));
$deltaSigma = $B*$sinSigma*($cos2SigmaM+$B/4*($cosSigma*(-1+2*$cos2SigmaM*$cos2SigmaM)- $B/6*$cos2SigmaM*(-3+4*$sinSigma*$sinSigma)*(-3+4*$cos2SigmaM*$cos2SigmaM)));
$s = $b*$A*($sigma-$deltaSigma);
return $s/1000;
}
echo VincentyDistance($lat1,$lat2,$lon1,$lon2);
What if you approach the problem from a different angle?
10 km in a straight line is:
- on the latitude is equal to ~1'(minute)
- on the longitude is equal to ~6'(minutes)
Using this as a basis, do some quick math and in your query add to the WHERE
clause removing any locations that are outside the 'box' that is created by adding the buffer zone with the assumption of 1' lat & 6' long
Working from this image:
-
GPS location you are searching for (34° 12' 34.0", -85° 1' 1.0") [34.2094444444, -85.0169444444]
-
You find the min/max latitude/longitude
2a. Min Latitude - 34.1927777778, -85.0169444444
2b. Min Longitude - 34.2094444444, -85.1169444444
2c. Max Latitude - 34.2261111111, -85.0169444444
2d. Max Longitude - 34.2094444444, -84.9169444444
-
Run your query with the min and max of each direction
SELECT * FROM geoloc WHERE lat >= 34.1927777 AND lat <= 34.2261111 AND long >= -85.1169444 AND long <= -84.9169444;
You can either integrate the distance calculation with the SQL query or you can use a PHP library/class to run the distance check after pulling the data. Either way you have reduced the number of calculations by a large percentage.
I use the following function to calculate the distance between two US84 GPS locations. Two parameters are passed, each parameter is an array with the first element being the latitude and the second element being the longitude. I believe it has an accuracy to a few feet, which should be enough for all but the hardest core GPS-ophiles. Also, I believe this uses the Haversine distance formula.
$distance = calculateGPSDistance(array(34.32343, -86.342343), array(34.433223, -96.0032344));
function calculateGPSDistance($site1, $site2)
{
$distance = 0;
$earthMeanRadius = 2.0891 * pow(10, 7);
$deltaLatitude = deg2rad($site2[0] - $site1[0]);
$deltaLongitude = deg2rad($site2[1] - $site1[1]);
$a = sin($deltaLatitude / 2) * sin($deltaLatitude / 2) + cos(deg2rad($site1[0])) *
cos(deg2rad($site2[0])) * sin($deltaLongitude / 2) * sin($deltaLongitude / 2);
$c = 2 * atan2(sqrt($a), sqrt(1-$a));
$distance = $earthMeanRadius * $c;
return $distance;
}
UPDATE
I forgot to mention, my distance function will return distance in feet.