I've been searching SO and Unity Answers for weeks now and been unable to solve this problem. I have a 3d object in Unity that is instantiated based on the user's current lat/long (let's say 41.23423, -122.87978) then i want to move the object to the new lat/long whenever their location changes.

So 41.23423, -122,87978 becomes 0,0,0 in my 3D environment and i apply changes relative to that original location.

I am coding in C# and when the action fires for a location change, i compare the two lat/longs and calculate distance and angle then do a polar to cartesian conversion and move the object to the new location.

My problem is that the updates are moving the object, but produce some erratic results, which i'm guessing is a problem in my code. For example, if i toggle between two locations, the first change will move to (131.6, 0.0, 0.0) but then toggling it back moves doesn't move the object. Or i've also seen in testing occasions where the first change will yield an unexpected coordinate, but any subsequent changes (toggling between two points) yields the same relative values for each location.

I don't have a good handle on what i'm doing wrong here, so any help would be greatly appreciated, and apologies in advance if this question is too vague or a duplicate question (either problems in my code or perhaps i'm not approaching the problem correctly)

Here's the code for my class that moves the object based on location.

```
using UnityEngine;
using System.Collections;
using System;
public class CameraMover : MonoBehaviour {
const double PIx = 3.141592653589793;
const double RADIO = 20925721.8;
public CoreLocationData lastLocationData;
public int firstUpdate = 0;
private Vector3 currentVector;
private Vector3 newVector;
// Use this for initialization
void OnEnable () {
CoreLocationManager.locationServicesDidUpdate += locationServicesDidUpdate;
}
// Update is called once per frame
void Update () {
}
public void locationServicesDidUpdate( CoreLocationData locationData )
{
if (firstUpdate == 0)
lastLocationData = locationData;
double newDistance = DistanceBetweenPlaces(lastLocationData.longitude, lastLocationData.latitude, locationData.longitude, locationData.latitude);
double angleToMove = Angle(lastLocationData.latitude, lastLocationData.longitude, locationData.latitude, locationData.longitude);
double newX = (newDistance * Math.Cos(angleToMove));
double newZ = (newDistance * Math.Sin(angleToMove));
float newXfloat = System.Convert.ToSingle(newX);
float newZfloat = System.Convert.ToSingle(newZ);
currentVector = this.gameObject.transform.position;
newVector = new Vector3(newXfloat, 0.0F, newZfloat);
this.gameObject.transform.position = Vector3.Lerp(currentVector, newVector, 1);
Debug.Log(string.Format("Distance To Move is {0}, angle is {1}", newDistance, angleToMove));
Debug.Log(string.Format("Moving from {0} to {1}", currentVector, newVector));
lastLocationData = locationData;
firstUpdate = 1;
}
public static double Radians(double x)
{
return x * PIx / 180;
}
public static double DistanceBetweenPlaces(
double lon1,
double lat1,
double lon2,
double lat2)
{
double dlon = Radians(lon2 - lon1);
double dlat = Radians(lat2 - lat1);
double a = (Math.Sin(dlat / 2) * Math.Sin(dlat / 2)) + Math.Cos(Radians(lat1)) * Math.Cos(Radians(lat2)) * (Math.Sin(dlon / 2) * Math.Sin(dlon / 2));
double angle = 2 * Math.Atan2(Math.Sqrt(a), Math.Sqrt(1 - a));
return angle * RADIO;
}
public double Angle(double px1, double py1, double px2, double py2)
{
// Negate X and Y values
double pxRes = px2 - px1;
double pyRes = py2 - py1;
double angle = 0.0;
// Calculate the angle
if (pxRes == 0.0)
{
if (pxRes == 0.0)
angle = 0.0;
else if (pyRes > 0.0) angle = System.Math.PI / 2.0;
else
angle = System.Math.PI * 3.0 / 2.0;
}
else if (pyRes == 0.0)
{
if (pxRes > 0.0)
angle = 0.0;
else
angle = System.Math.PI;
}
else
{
if (pxRes < 0.0)
angle = System.Math.Atan(pyRes / pxRes) + System.Math.PI;
else if (pyRes < 0.0) angle = System.Math.Atan(pyRes / pxRes) + (2 * System.Math.PI);
else
angle = System.Math.Atan(pyRes / pxRes);
}
// Convert to degrees
angle = angle * 180 / System.Math.PI;return angle;
}
}
```

**EDIT**

Correct Implementation:

```
using UnityEngine;
using System.Collections;
using System;
public class CameraMover : MonoBehaviour
{
const double RATIO = 20902231.0029;
public CoreLocationData lastLocationData;
public int firstUpdate = 0;
private Vector3 currentVector;
private Vector3 newVector;
// Use this for initialization
void OnEnable ()
{
CoreLocationManager.locationServicesDidUpdate += locationServicesDidUpdate;
}
// Update is called once per frame
void Update () { }
public void locationServicesDidUpdate( CoreLocationData locationData )
{
if (firstUpdate == 0)
{
lastLocationData = locationData;
}
double newDistance = DistanceBetweenPlaces(lastLocationData.longitude, lastLocationData.latitude, locationData.longitude, locationData.latitude);
double angleToMove = AngleBetweenPlaces(lastLocationData.latitude, lastLocationData.longitude, locationData.latitude, locationData.longitude);
double angleToMoveRadians = Deg2Rad(angleToMove);
double newX = (newDistance * Math.Sin(angleToMoveRadians));
double newZ = (newDistance * Math.Cos(angleToMoveRadians));
float newXfloat = System.Convert.ToSingle(newX) * -1;
float newZfloat = System.Convert.ToSingle(newZ) * -1;
Debug.Log(string.Format("new x coordinate should be {0} and z should be {1}", newXfloat, newZfloat));
currentVector = this.gameObject.transform.position;
this.gameObject.transform.position = new Vector3((currentVector.x + newXfloat),0, (currentVector.z + newZfloat));
lastLocationData = locationData;
firstUpdate = 1;
}
public static double DistanceBetweenPlaces(
double lon1,
double lat1,
double lon2,
double lat2)
{
double phi1 = Deg2Rad(lat1);
double phi2 = Deg2Rad(lat2);
double deltaLamdba = Deg2Rad(lon2 - lon1);
double d = Math.Acos(
(Math.Sin(phi1) * Math.Sin(phi2)) +
(Math.Cos(phi1) * Math.Cos(phi2) * Math.Cos(deltaLamdba)));
return d * RATIO;
}
public static double Deg2Rad(double degrees)
{
return degrees * (Math.PI / 180.0);
}
public static double Rad2Deg(double radians)
{
return radians * (180.0 / Math.PI);
}
public double AngleBetweenPlaces(double lat1, double lon1, double lat2, double lon2)
{
var newLat1 = Deg2Rad(lat1);
var newLat2 = Deg2Rad(lat2);
var dLon = Deg2Rad(lon2) - Deg2Rad(lon1);
var y = Math.Sin(dLon) * Math.Cos(newLat2);
var x = Math.Cos(newLat1) * Math.Sin(newLat2) - Math.Sin(newLat1) * Math.Cos(newLat2) * Math.Cos(dLon);
var brng = Math.Atan2(y, x);
return (Rad2Deg(brng) + 360) % 360;
}
}
```