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This example and java script code is from link text
Look at the section on rhumb lines.

Given a start point and a distance d along constant bearing θ, this will calculate the destination point. If you maintain a constant bearing along a rhumb line, you will gradually spiral in towards one of the poles.


  α = d/R (angular distance)   
  lat2 = lat1 + α.cos(θ)   
  Δφ = ln(tan(lat2/2+π/4)/tan(lat1/2+π/4)) [= the ‘stretched’ latitude difference] 
if E:W line q = cos(lat1)    
otherwise q = Δlat/Δφ   
  Δlon = α.sin(θ)/q   
  lon2 = (lon1+Δlon+π) % 2.π − π   
  where ln is natural log and % is modulo, Δlon is taking shortest route (<180°), and R is the earth’s radius 


lat2 = lat1 + d*Math.cos(brng);
var dPhi = Math.log(Math.tan(lat2/2+Math.PI/4)/Math.tan(lat1/2+Math.PI/4));
var q = (!isNaN(dLat/dPhi)) ? dLat/dPhi : Math.cos(lat1);  // E-W line gives dPhi=0
var dLon = d*Math.sin(brng)/q;
// check for some daft bugger going past the pole, normalise latitude if so
if (Math.abs(lat2) > Math.PI/2) lat2 = lat2>0 ? Math.PI-lat2 : -(Math.PI-lat2);
lon2 = (lon1+dLon+Math.PI)%(2*Math.PI) - Math.PI; 

I am trying to convert it into php syntax but I am not getting the desired result. I have the latitude part working fine. I also included my test data.


// test data
$R = 6371;
$tlatitude = 50.7;
$tlongitude = -105.214;
$theading = 124;
$d = 50;  

$projlat = $tlatitude +  rad2deg(($d/$R)*COS(deg2rad($theading)));

//Δφ = ln(tan(lat2/2+π/4)/tan(lat1/2+π/4))
$delta_phi = log(tan(deg2rad($projlat/2) + pi()/4)/(tan(deg2rad($tlatitude/2) + pi()/4)));

//q = Δlat/Δφ 
$delta_lat = deg2rad($projlat - $tlatitude);

$q = $delta_lat/$delta_phi;

//Δlon = α.sin(θ)/q
$delta_long = rad2deg($d/$R*sin(deg2rad($theading))/$q);

$projlong = $tlongitude + $delta_long;

I get $projlong = -104.84

according to the referenced page the answer should be -104.63.

Now I am trying to get this to work disregarding the east-west and over the pole possibilities.

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Pasting in your exact PHP code and adding a line echo round($projlong, 2); gives me the output -104.63. Do you definitely get output of -104.84? –  thirtydot Dec 27 '10 at 20:43
yep thats what I was getting....however I followed your lead and pasted "my own" code into a new bare html/php page and got the correct answer....looking at my original page I found that I had used pi instead of pi() and that seems to affect the result....I think I was chasing my tail. –  brian Dec 29 '10 at 21:33
If you found the error, write it as an answer and set it as accepted so the question does not stay open. –  David Mårtensson Feb 12 '11 at 0:12

2 Answers 2

I had some problems when making distance calculations where my errors would grow quite a bit after a while. I discovered that if I made a cast to (double) in my code the precision increased. I have not looked in to the C-code in PHP to see what caused this though. I could after this scrap my BC-version of the code.

If you need additional precision please check out the BC-functions in PHP. http://php.net/manual/en/book.bc.php

Also, please remember that the order that you make calculations in a computer will affect your precision. That is, the calculation bellow


will not render the same result as


and this can also give a third result


This has to do with the limited precision for numbers close to zero (0) in computers.

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javascript has more precision than php look at this joke http://ru2.php.net/manual/en/function.doubleval.php

I once needed to check some IBAN with the Luhn's algorithm. My javascript code worked nicely. But my php failed, so after some research, i found the joke and had to recode basic operations (add, sub, compute, divide, modulo) based on string and not number.

Maybe should you recode it too, to get your expected precision. We should not use php for high precision calculations.

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