Get ECEF XYZ given starting coordinates, range, azimuth, and elevation_问答_开发者

I'm开发者_JAVA百科 having a problem locating anything on converting RAE to XYZ.

If I am on a WGS84 spheroid, at say position -742507, -5462738, 3196706 and I detect an object at a range of 30km, azimuth of 310, and elevation angle of 18 degrees how can I convert that to ECEF XYZ coordinates?

Thanks.

It appears that there is no straight forward process to do this. The best method I found is to convert from RAE coordinates to SEZ coordinates, then from SEZ coordinates to ECR coordinates. Here is some C# code I modified to C++ to achieve this:

void main() {
    // NOTE: distances are in meters, while angles are in degrees
    double siteECR[] = { -763997.48, -5458565.87, 3196706.0 };
    double objRAE[]  = { 30000.0, 310.0, 18.0 };
    double objECR[]  = { 0.0, 0.0, 0.0 };

    // Should return ~[-764142.7629, -5458517.683, 3217218.18] in objECR
    RAEtoECR(siteECR, objRAE, objECR);
}

/************************************************************************************************************************/
/*  Converts a Range, Azimuth, Elevation location to a Latitude, Longitude, Altitude location         */
/*  siteLLA - array holding the Latitude, Longitude, and Altitude of the site location in degrees and meters      */
/*  rae     - array holding the Range, Azimuth, and Elevation, in degrees, of the object viewed from the site location  */
/*  objECR  - destination array to hold the ECR X, Y, Z location in meters             */
/************************************************************************************************************************/
void RAEtoECR(double siteECR[], double rae[], double objECR[]) {
    double tempSEZ[] = { 0.0, 0.0, 0.0 };
    double siteLLA[] = { 0.0, 0.0, 0.0 };

    ECRtoLLA(siteECR, siteLLA);
    RAEtoSEZ(siteLLA, objRAE, tempSEZ);
    SEZtoECR(siteLLA, tempSEZ, objECR);
}

/************************************************************************************************************************/
/*  Converts a Range, Azimuth, Elevation location to a South, East, Zenith location          */
/*  siteLLA - array holding the Latitude, Longitude, and Altitude of the site location in degrees and meters   */
/*  rae     - array holding the Range, Azimuth, and Elevation, in degrees, of the object viewed from the site location  */
/*  sez     - destination array to hold the South, East, and Zenith coordinates of the object being viewed in meters */
/************************************************************************************************************************/
void RAEtoSEZ(double siteLLA[], double rae[], double sez[]) {
    double range, azimuth, elevation;
    range   = rae[0];
    azimuth   = rae[1];
    elevation = rae[2];

    // Compute needed math
    double slat = sin(Deg2Rad(siteLLA[0]));
    double slon = sin(Deg2Rad(siteLLA[1]));
    double clat = cos(Deg2Rad(siteLLA[0]));
    double clon = cos(Deg2Rad(siteLLA[1]));

    // Convert to radians
    azimuth   = DEG2RAD(azimuth);
    elevation = DEG2RAD(elevation);

    // Convert
    sez[0] = -range * cos(elevation) * cos(azimuth);
    sez[1] =  range * cos(elevation) * sin(azimuth);
    sez[2] =  range * sin(elevation);
}

/************************************************************************************************************************/
/*  Converts a South, East, Zenith location to an ECR X, Y, Z location              */
/*  siteLLA - array holding the Latitude, Longitude, and Altitude of the site location in degrees and meters      */
/*  sez     - array holding the South, East, and Zenith coordinates of the object being viewed in meters       */
/*  ecr     - destination array to hold the ECR X, Y, Z location in meters             */
/************************************************************************************************************************/
void SEZtoECR(double siteLLA[], double sez[], double ecr[]) {
    // Convert siteLLA to XYZ
    double[] siteXYZ = { 0.0, 0.0, 0.0 };
    LLAtoECR(siteLLA, siteXYZ);

    double south, east, zenith;
    south  = sez[0];
    east   = sez[1];
    zenith = sez[2];

    // Compute needed math
    double slat = sin(Deg2Rad(siteLLA[0]));
    double slon = sin(Deg2Rad(siteLLA[1]));
    double clat = cos(Deg2Rad(siteLLA[0]));
    double clon = cos(Deg2Rad(siteLLA[1]));

    // Convert
    ecr[0] = ( slat * clon * south) + (-slon * east) + (clat * clon * zenith) + siteXYZ[0];
    ecr[1] = ( slat * slon * south) + ( clon * east) + (clat * slon * zenith) + siteXYZ[1];
    ecr[2] = (-clat *        south) + ( slat * zenith) + siteXYZ[2];
}

You can use matlab functions sph2cart.m

http://computitos.files.wordpress.com/2008/03/cartesian_spherical_transformation.pdf

Make sure your the 0degree in your project is same as math 0degree.

navy uses 0degree as north.

lumberjack's answer is superb. Here it is in javascript just in case anyone needs it:

main();

function main() {
    // NOTE: distances are in meters, while angles are in degrees

    var siteECR = {
        X: -763997.48,
        Y: -5458565.87,
        Z: 3196706.0
    };

    var siteLLA = {
        Latitude: 30.28011211999193,
        Longitude: -97.96753350982041,
        Altitude: -1033.8619585652073
    };

    var objRAE = {
        Range: 30000.0,
        Azimuth: 310.0,
        Elevation: 18.0
    }

    var objECR = { X: 0, Y: 0, Z: 0 }

    // Should return ~[-764142.7629, -5458517.683, 3217218.18] in objECR
    RAEtoECR(siteECR, siteLLA, objRAE, objECR);

    console.log(objECR);
}

/************************************************************************************************************************/
/*  Converts a Range, Azimuth, Elevation location to a Latitude, Longitude, Altitude location         */
/*  siteLLA - array holding the Latitude, Longitude, and Altitude of the site location in degrees and meters      */
/*  rae     - array holding the Range, Azimuth, and Elevation, in degrees, of the object viewed from the site location  */
/*  objECR  - destination array to hold the ECR X, Y, Z location in meters             */
/************************************************************************************************************************/
function RAEtoECR(siteECR, siteLLA, rae, objECR) {
    var tempSEZ = { South: 0, East: 0, Zenith: 0 };

    //ECRtoLLA(siteECR, siteLLA);
    RAEtoSEZ(siteLLA, rae, tempSEZ);
    SEZtoECR(siteECR, siteLLA, tempSEZ, objECR);
}

function toRadians(angle) {
    return angle * (Math.PI / 180);
}

/************************************************************************************************************************/
/*  Converts a Range, Azimuth, Elevation location to a South, East, Zenith location          */
/*  siteLLA - array holding the Latitude, Longitude, and Altitude of the site location in degrees and meters   */
/*  rae     - array holding the Range, Azimuth, and Elevation, in degrees, of the object viewed from the site location  */
/*  sez     - destination array to hold the South, East, and Zenith coordinates of the object being viewed in meters */
/************************************************************************************************************************/
function RAEtoSEZ(siteLLA, rae, sez) {
    var range = rae.Range;
    var azimuth = rae.Azimuth;
    var elevation = rae.Elevation;

    // Compute needed math
    var slat = Math.sin(toRadians(siteLLA.Latitude));
    var slon = Math.sin(toRadians(siteLLA.Longitude));
    var clat = Math.cos(toRadians(siteLLA.Latitude));
    var clon = Math.cos(toRadians(siteLLA.Longitude));

    // Convert to radians
    azimuth   = toRadians(azimuth);
    elevation = toRadians(elevation);

    // Convert
    sez.South = -range * Math.cos(elevation) * Math.cos(azimuth);
    sez.East =  range * Math.cos(elevation) * Math.sin(azimuth);
    sez.Zenith =  range * Math.sin(elevation);
}

/************************************************************************************************************************/
/*  Converts a South, East, Zenith location to an ECR X, Y, Z location              */
/*  siteLLA - array holding the Latitude, Longitude, and Altitude of the site location in degrees and meters      */
/*  sez     - array holding the South, East, and Zenith coordinates of the object being viewed in meters       */
/*  ecr     - destination array to hold the ECR X, Y, Z location in meters             */
/************************************************************************************************************************/
function SEZtoECR(siteXYZ, siteLLA, sez, ecr) {

    var south  = sez.South;
    var east   = sez.East;
    var zenith = sez.Zenith;

    // Compute needed math
    var slat = Math.sin(toRadians(siteLLA.Latitude));
    var slon = Math.sin(toRadians(siteLLA.Longitude));
    var clat = Math.cos(toRadians(siteLLA.Latitude));
    var clon = Math.cos(toRadians(siteLLA.Longitude));

    // Convert
    ecr.X = ( slat * clon * south) + (-slon * east) + (clat * clon * zenith) + siteXYZ.X;
    ecr.Y = ( slat * slon * south) + ( clon * east) + (clat * slon * zenith) + siteXYZ.Y;
    ecr.Z = (-clat *        south) + ( slat * zenith) + siteXYZ.Z;
}