本文介绍了java 地心坐标系(ECEF)和WGS-84坐标系(WGS84)互转的实现,分享给大家,具体如下: public static String WGS84toECEF(double latitude, double longitude, double height) { double X; double Y; double Z;
本文介绍了java 地心坐标系(ECEF)和WGS-84坐标系(WGS84)互转的实现,分享给大家,具体如下:
public static String WGS84toECEF(double latitude, double longitude, double height) { double X; double Y; double Z; double a = 6378137; double b = 6356752.314245; double E = (a * a - b * b) / (a * a); double COSLAT = Math.cos(latitude * Math.PI / 180); double SINLAT = Math.sin(latitude * Math.PI / 180); double COSLONG = Math.cos(longitude * Math.PI / 180); double SINLONG = Math.sin(longitude * Math.PI / 180); double N = a / (Math.sqrt(1 - E * SINLAT * SINLAT)); double NH = N + height; X = NH * COSLAT * COSLONG; Y = NH * COSLAT * SINLONG; Z = (b * b * N / (a * a) + height) * SINLAT; return X + "," + Y + "," + Z; } public static String ECEFtoWGS84(double x, double y, double z) { double a, b, c, d; double Longitude;//经度 double Latitude;//纬度 double Altitude;//海拔高度 double p, q; double N; a = 6378137.0; b = 6356752.31424518; c = Math.sqrt(((a * a) - (b * b)) / (a * a)); d = Math.sqrt(((a * a) - (b * b)) / (b * b)); p = Math.sqrt((x * x) + (y * y)); q = Math.atan2((z * a), (p * b)); Longitude = Math.atan2(y, x); Latitude = Math.atan2((z + (d * d) * b * Math.pow(Math.sin(q), 3)), (p - (c * c) * a * Math.pow(Math.cos(q), 3))); N = a / Math.sqrt(1 - ((c * c) * Math.pow(Math.sin(Latitude), 2))); Altitude = (p / Math.cos(Latitude)) - N; Longitude = Longitude * 180.0 / Math.PI; Latitude = Latitude * 180.0 / Math.PI; return Longitude + "," + Latitude + "," + Altitude; }
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持自由互联。