计算端点给定距离，方位，起点

Question

我试图找到目的地点，给定起点纬度/长度，方位和距离。 下面这个网站的计算器给了我想要的结果。

http://www.movable-type.co.uk/scripts/latlong.html

当我尝试通过代码实现相同的时候，我得不到正确的结果。

以下是我的代码 -

    private  GLatLng pointRadialDistance(double lat1, double lon1,
               double radianBearing, double radialDistance)
    {
        double rEarth = 6371.01;
        lat1 = DegreeToRadian(lat1);
        lon1 = DegreeToRadian(lon1);
        radianBearing = DegreeToRadian(radianBearing);
        radialDistance = radialDistance / rEarth;
        double lat = Math.Asin(Math.Sin(lat1) * Math.Cos(radialDistance) + Math.Cos(lat1)
                        * Math.Sin(radialDistance) * Math.Cos(radianBearing));
        double lon;
        if (Math.Cos(lat) == 0)
        {  // Endpoint a pole 
            lon = lon1;
        }
        else
        {
            lon = ((lon1 - Math.Asin(Math.Sin(radianBearing) * Math.Sin(radialDistance) / Math.Cos(lat))
                            + Math.PI) % (2 * Math.PI)) - Math.PI;
        }
        lat = RadianToDegree(lat);
        lon = RadianToDegree(lon);
        GLatLng newLatLng = new GLatLng(lat, lon);
        return newLatLng;
    }

    public  double Bearing(double lat1, double long1, double lat2, double long2)
    {
        //Convert input values to radians   
        lat1 = DegreeToRadian(lat1);
        long1 = DegreeToRadian(long1);
        lat2 = DegreeToRadian(lat2);
        long2 = DegreeToRadian(long2);

        double deltaLong = long2 - long1;

        double y = Math.Sin(deltaLong) * Math.Cos(lat2);
        double x = Math.Cos(lat1) * Math.Sin(lat2) -
                Math.Sin(lat1) * Math.Cos(lat2) * Math.Cos(deltaLong);
        double bearing = Math.Atan2(y, x);
        return bearing;
    }   

   public double DegreeToRadian(double angle)
    {
    return Math.PI * angle / 180.0;
    }

    public double RadianToDegree(double angle)
    {
        return 180.0 * angle / Math.PI;
    }

从主程序，我调用子程序如下 -

double bearing = Bearing(-41.294444, 174.814444, -40.90521, 175.6604);
GLatLng endLatLng = pointRadialDistance(-41.294444, 174.814444, bearing, 80);

我得到以下结果 -

Bearing=1.02749621782165
endLatLng=-40.5751022737927,174.797458881699

我期待的答案是-40.939722,175.646389 （来自上面的网站链接）。

任何人都可以在这里建议我在代码中犯的错误吗？

Answer 1

这里有一些代码可以实现您想要做的事情。

public static GeoLocation FindPointAtDistanceFrom(GeoLocation startPoint, double initialBearingRadians, double distanceKilometres)
{
    const double radiusEarthKilometres = 6371.01;
    var distRatio = distanceKilometres / radiusEarthKilometres;
    var distRatioSine = Math.Sin(distRatio);
    var distRatioCosine = Math.Cos(distRatio);

    var startLatRad = DegreesToRadians(startPoint.Latitude);
    var startLonRad = DegreesToRadians(startPoint.Longitude);

    var startLatCos = Math.Cos(startLatRad);
    var startLatSin = Math.Sin(startLatRad);

    var endLatRads = Math.Asin((startLatSin * distRatioCosine) + (startLatCos * distRatioSine * Math.Cos(initialBearingRadians)));

    var endLonRads = startLonRad
        + Math.Atan2(
            Math.Sin(initialBearingRadians) * distRatioSine * startLatCos,
            distRatioCosine - startLatSin * Math.Sin(endLatRads));

    return new GeoLocation
    {
        Latitude = RadiansToDegrees(endLatRads),
        Longitude = RadiansToDegrees(endLonRads)
    };
}

public struct GeoLocation
{
    public double Latitude { get; set; }
    public double Longitude { get; set; }
}

public static double DegreesToRadians(double degrees)
{
    const double degToRadFactor = Math.PI / 180;
    return degrees * degToRadFactor;
}

public static double RadiansToDegrees(double radians)
{
    const double radToDegFactor = 180 / Math.PI;
    return radians * radToDegFactor;
}

Answer 2

这是我从http://www.movable-type.co.uk/scripts/latlong.html转换为C＃的代码。 它应该非常简单易用。

public static (double Lat, double Lon) Destination((double Lat, double Lon) startPoint, double distance, double bearing)
    {
        double lat1 = startPoint.Lat * (Math.PI / 180);
        double lon1 = startPoint.Lon * (Math.PI / 180);
        double brng = bearing * (Math.PI / 180);
        double lat2 = Math.Asin(Math.Sin(lat1) * Math.Cos(distance / radius) + Math.Cos(lat1) * Math.Sin(distance / radius) * Math.Cos(brng));
        double lon2 = lon1 + Math.Atan2(Math.Sin(brng) * Math.Sin(distance / radius) * Math.Cos(lat1), Math.Cos(distance / radius) - Math.Sin(lat1) * Math.Sin(lat2));
        return (lat2 * (180 / Math.PI), lon2 * (180 / Math.PI));
    }

radius是地球radius的常数，以米为单位。

它使用元组，因此您可以使用.Lat或.Lon单独访问纬度或经度。

Answer 3

下面是http://www.movable-type.co.uk/scripts/latlong.html上的JavaScript代码的实现，我自己编写并在我自己的项目中使用。 如果愿意，您可以将其实施到您的项目中。

注意：坐标是具有X（经度），Y（纬度），Z（高度）属性的类。 ToDegree（）和ToRadian（）是Double类型的扩展。 最后，GetTarget（）是Coordinate实例的扩展。

/// <summary>Calculates the destination coordinate by given angle and distance.</summary>
/// <param name="origin">Origin.</param>
/// <param name="bearing">Azimuth.</param>
/// <param name="distance">Distance (km).</param>
/// <returns>Coordinate.</returns>
public static Coordinate GetTarget(
this Coordinate origin, double bearing, double distance, double altitude = 0)
{
    var d = distance / 6371;
    var rlat = origin.Y.ToRadian();
    var rlon = origin.X.ToRadian();
    var rbearing = bearing.ToRadian();
    var lat2 = rlat + (d * Math.Cos(rbearing));
    var dlat = lat2 - rlat;
    var dphi = Math.Log((Math.Tan((lat2 / 2) + (Math.PI / 4))) / (Math.Tan((rlat / 2) + (Math.PI / 4))));
    var q =
        Math.Abs(dlat) > 0.0000000001
        ? dlat / dphi
        : Math.Cos(rlat);
    var dlon = (d * Math.Sin(rbearing)) / q;

    if (Math.Abs(lat2) > Math.PI / 2)
    {
        lat2 = lat2 > 0 ? Math.PI : Math.PI - lat2;
    }

    var lon2 = (rlon + dlon + Math.PI) % (2 * Math.PI) - Math.PI;

    return new Coordinate
    {
        X = lon2.ToDegree(),
        Y = lat2.ToDegree(),
        Z = origin.Z
    };
}

Answer 4

几何库（V3）中非常简单的解决方案，如果您没有使用谷歌地图api V3的问题（例如，取决于应用程序 - 实时资产跟踪 - 免费许可证不适用或您可能不想重构从V2到V3）。

1st：使用您当前的声明声明一个额外的库ALONG：

<script type="text/javascript" src="http://maps.google.com/maps/api/js?libraries=geometry&sensor=false"></script>

第二：建立起点，航向和距离

var nyc = new google.maps.LatLng(40.715, -74.002);
var distance = 5576673;
var heading = 51.2145;

第3名：去那儿

var endPoint = google.maps.geometry.spherical.computeOffset(nyc, distance, heading);
var london = new google.maps.Marker({
  position: endPoint,
  map: map
});

完了，你现在在伦敦小镇。 有关computeDistance，computeHeading和computeArea的更多信息：

http://www.svennerberg.com/2011/04/calculating-distances-and-areas-in-google-maps-api-3/

http://code.google.com/intl/en/apis/maps/documentation/javascript/geometry.html