public OPoint(string id, Point p, CePoint cpoint) { this.Id = id; ForP = p; // curTime = dt; InitP(cpoint); }
//初始化计算 public void InitP(CePoint cpoint) { Point dp = ForP - cpoint; double radBp = 0, radLp = 0, h = 0; cpoint.XYZ2BLH(ref radBp, ref radLp, ref h); double[,] Romat = Algo.RoMat(radBp, radLp); ResP = Romat * dp; a = Math.Atan(ResP.Y / ResP.X); if (a < 0) { a = a + Math.PI; } e = Math.Atan(ResP.Z / (Math.Sqrt(ResP.X * ResP.X + ResP.Y * ResP.Y))); //double dua = a * 180.0 / Math.PI; //double due = e * 180.0 / Math.PI; //计算穿刺点地磁纬度 double X = 0.0137 / (e + 0.11) - 0.022; double fai = radBp + X * Math.Cos(a); double lanta = radLp + X * Math.Sin(a) / Math.Cos(fai); double faim = fai + 0.064 * Math.Cos(lanta - 1.617); //计算电离层延迟量 double[] arfa = { 0.1397 * Math.Pow(10, -7), -0.7451 * Math.Pow(10, -8), -0.5960 * Math.Pow(10, -7), 0.1192 * Math.Pow(10, -6) }; double[] beta = { 0.1270 * Math.Pow(10, 6), -0.1966 * Math.Pow(10, 6), 0.6554 * Math.Pow(10, 5), 0.2621 * Math.Pow(10, 6) }; double A1 = 5 * Math.Pow(10, -9); //夜间时间常量 double A3 = 50400.0; //表示取最大值时当地时间 double A2 = arfa[0] + arfa[1] * faim + arfa[2] * faim * faim + arfa[3] * Math.Pow(faim, 3); double A4 = beta[0] + beta[1] * faim + beta[2] * faim * faim + beta[3] * Math.Pow(faim, 3); double t = cpoint.CurTime.SecondOfDay() + 43200.0 * lanta;//应该是这个时刻的秒数 double ptemp = (Math.PI * 2 * (t - A3) / A4); double F = 1 + 16.0 * Math.Pow((0.53 - e), 3); //电离层延时量 if (Math.Abs(ptemp) < 1.57) { tion = F * (A1 + A2 * Math.Cos(ptemp)); } else { tion = F * A1; } tion = tion * 299792458; }