source: Sophya/trunk/SophyaExt/XephemAstroLib/sgp4.c@ 1681

#include <stdlib.h>
#include <math.h>

#include "sattypes.h"
#include "vector.h"
#include "satspec.h"

#define XMO (sat->elem->se_XMO)
#define XNODEO (sat->elem->se_XNODEO)
#define OMEGAO (sat->elem->se_OMEGAO)
#define EO (sat->elem->se_EO)
#define XINCL (sat->elem->se_XINCL)
#define XNO (sat->elem->se_XNO)
#define XNDT20 (sat->elem->se_XNDT20)
#define XNDD60 (sat->elem->se_XNDD60)
#define BSTAR (sat->elem->se_BSTAR)
#define EPOCH (sat->elem->se_EPOCH)

#define X (pos->sl_X)
#define XDOT (pos->sl_XDOT)
#define Y (pos->sl_Y)
#define YDOT (pos->sl_YDOT)
#define Z (pos->sl_Z)
#define ZDOT (pos->sl_ZDOT)

#define AODP (sat->prop.sgp4->sgp4_AODP)
#define AYCOF (sat->prop.sgp4->sgp4_AYCOF)
#define C1 (sat->prop.sgp4->sgp4_C1)
#define C4 (sat->prop.sgp4->sgp4_C4)
#define C5 (sat->prop.sgp4->sgp4_C5)
#define COSIO (sat->prop.sgp4->sgp4_COSIO)
#define D2 (sat->prop.sgp4->sgp4_D2)
#define D3 (sat->prop.sgp4->sgp4_D3)
#define D4 (sat->prop.sgp4->sgp4_D4)
#define DELMO (sat->prop.sgp4->sgp4_DELMO)
#define ETA (sat->prop.sgp4->sgp4_ETA)
#define OMGCOF (sat->prop.sgp4->sgp4_OMGCOF)
#define OMGDOT (sat->prop.sgp4->sgp4_OMGDOT)
#define SINIO (sat->prop.sgp4->sgp4_SINIO)
#define SINMO (sat->prop.sgp4->sgp4_SINMO)
#define T2COF (sat->prop.sgp4->sgp4_T2COF)
#define T3COF (sat->prop.sgp4->sgp4_T3COF)
#define T4COF (sat->prop.sgp4->sgp4_T4COF)
#define T5COF (sat->prop.sgp4->sgp4_T5COF)
#define X1MTH2 (sat->prop.sgp4->sgp4_X1MTH2)
#define X3THM1 (sat->prop.sgp4->sgp4_X3THM1)
#define X7THM1 (sat->prop.sgp4->sgp4_X7THM1)
#define XLCOF (sat->prop.sgp4->sgp4_XLCOF)
#define XMCOF (sat->prop.sgp4->sgp4_XMCOF)
#define XMDOT (sat->prop.sgp4->sgp4_XMDOT)
#define XNODCF (sat->prop.sgp4->sgp4_XNODCF)
#define XNODOT (sat->prop.sgp4->sgp4_XNODOT)
#define XNODP (sat->prop.sgp4->sgp4_XNODP)

#define CK2      (5.413080e-04)
#define CK4      (6.209887e-07)
#define QOMS2T   (1.880279e-09)
#define S        (1.012229e+00)

#define AE (1.0)
#define DE2RA (.174532925E-1)
#define E6A (1.E-6)
#define PI (3.14159265)
#define PIO2 (1.57079633)
#define QO (120.0)
#define SO (78.0)
#define TOTHRD (.66666667)
#define TWOPI (6.2831853)
#define X3PIO2 (4.71238898)
#define XJ2 (1.082616E-3)
#define XJ3 (-.253881E-5)
#define XJ4 (-1.65597E-6)
#define XKE (.743669161E-1)
#define XKMPER (6378.135)
#define XMNPDA (1440.0)

/* compute position and velocity vectors for the satellite defined in sat->elem
 * at its epoch + TSINCE.
 */
void
sgp4(sat, pos, dpos, TSINCE)
SatData *sat;
Vec3 *pos;
Vec3 *dpos;
double TSINCE;
{
    int i;

    double A1, A3OVK2, AO, BETAO, BETAO2, C1SQ, C2, C3, COEF, COEF1,
        DEL1, DELO, EETA, EOSQ, ETASQ, PERIGE, PINVSQ, PSISQ, QOMS24,
        S4, TEMP, TEMP1, TEMP2, TEMP3, THETA2, THETA4, TSI, X1M5TH,
        XHDOT1;

    double A, AXN, AYN, AYNL, BETA, BETAL, CAPU, COS2U, COSEPW, COSIK,
        COSNOK, COSU, COSUK, DELM, DELOMG, E, ECOSE, ELSQ, EPW, ESINE,
        OMEGA, OMGADF, PL, R, RDOT, RDOTK, RFDOT, RFDOTK, RK, SIN2U,
        SINEPW, SINIK, SINNOK, SINU, SINUK, TCUBE, TEMP4, TEMP5, TEMP6,
        TEMPA, TEMPE, TEMPL, TFOUR, TSQ, U, UK, UX, UY, UZ, VX, VY, VZ,
        XINCK, XL, XLL, XLT, XMDF, XMP, XMX, XMY, XN, XNODDF, XNODE,
        XNODEK;

#if 0
    A1 = A3OVK2 = AO = BETAO = BETAO2 = C1SQ = C2 = C3 = COEF = COEF1 =
        DEL1 = DELO = EETA = EOSQ = ETASQ = PERIGE = PINVSQ = PSISQ = QOMS24 =
        S4 = TEMP = TEMP1 = TEMP2 = TEMP3 = THETA2 = THETA4 = TSI = X1M5TH =
        XHDOT1 = signaling_nan();

    A = AXN = AYN = AYNL = BETA = BETAL = CAPU = COS2U = COSEPW = COSIK =
        COSNOK = COSU = COSUK = DELM = DELOMG = E = ECOSE = ELSQ = EPW =
        ESINE = OMEGA = OMGADF = PL = R = RDOT = RDOTK = RFDOT = RFDOTK =
        RK = SIN2U = SINEPW = SINIK = SINNOK = SINU = SINUK = TCUBE = TEMP4 =
        TEMP5 = TEMP6 = TEMPA = TEMPE = TEMPL = TFOUR = TSQ = U = UK = UX =
        UY = UZ = VX = VY = VZ = XINCK = XL = XLL = XLT = XMDF = XMP = XMX =
        XMY = XN = XNODDF = XNODE = XNODEK = signaling_nan();
#endif

    if(!sat->prop.sgp4) {
        sat->prop.sgp4 = (struct sgp4_data *) malloc(sizeof(struct sgp4_data));

        /*
         * RECOVER ORIGINAL MEAN MOTION (XNODP) AND SEMIMAJOR AXIS (AODP)
         * FROM INPUT ELEMENTS
         */

        A1 = pow((XKE/XNO), TOTHRD);
        COSIO = cos(XINCL);
        THETA2 = COSIO * COSIO;
        X3THM1 = 3.0 * THETA2 - 1.0;
        EOSQ = EO * EO;
        BETAO2 = 1.0 - EOSQ;
        BETAO = sqrt(BETAO2);
        DEL1 = 1.5 * CK2 * X3THM1 / (A1 * A1 * BETAO * BETAO2);
        AO = A1 * (1.0 - DEL1 * (.5 * TOTHRD +
                                 DEL1 * (1.0 + 134.0 /81.0 * DEL1)));
        DELO = 1.5 * CK2 * X3THM1 / (AO * AO * BETAO * BETAO2);
        XNODP = XNO / (1.0 + DELO);
        AODP=AO / (1.0 - DELO);

        /*
         * INITIALIZATION
         *
         * FOR PERIGEE LESS THAN 220 KILOMETERS, THE ISIMP FLAG IS SET AND
         * THE EQUATIONS ARE TRUNCATED TO LINEAR VARIATION IN SQRT A AND
         * QUADRATIC VARIATION IN MEAN ANOMALY.  ALSO, THE C3 TERM, THE
         * DELTA OMEGA TERM, AND THE DELTA M TERM ARE DROPPED.
         */

        sat->prop.sgp4->sgp4_flags = 0;

        /* IF((AODP*(1.-EO)/AE) .LT. (220./XKMPER+AE)) ISIMP=1 */

        if((AODP * (1.0 - EO) / AE) < (220.0 / XKMPER + AE))
            sat->prop.sgp4->sgp4_flags |= SGP4_SIMPLE;

        /*
         * FOR PERIGEE BELOW 156 KM, THE VALUES OF
         * S AND QOMS2T ARE ALTERED
         */

        S4 = S;
        QOMS24 = QOMS2T;
        PERIGE = (AODP * (1.0 - EO) - AE) * XKMPER;

        if(PERIGE < 156.0) {
            S4 = PERIGE - 78.0;

            if(PERIGE <= 98.0)
                S4 = 20.0;

            QOMS24 = pow(((120.0 - S4) * AE / XKMPER), 4.0);
            S4 = S4 / XKMPER + AE;
        }

        PINVSQ=1.0 / (AODP * AODP * BETAO2 * BETAO2);
        TSI = 1.0 / (AODP - S4);
        ETA = AODP * EO * TSI;
        ETASQ = ETA * ETA;
        EETA = EO * ETA;

        PSISQ = fabs(1.0 - ETASQ);

        COEF = QOMS24 * pow(TSI, 4.0);
        COEF1 = COEF / pow(PSISQ, 3.5);

        C2 = COEF1 * XNODP * (AODP * (1.0 + 1.5 * ETASQ +
                                      EETA * (4.0 + ETASQ)) + .75 *
                              CK2 * TSI /
                              PSISQ * X3THM1 * (8.0 +
                                                3.0 * ETASQ * (8.0 + ETASQ)));


        C1 = BSTAR * C2;

        SINIO = sin(XINCL);

        A3OVK2 = -XJ3 / CK2 * pow(AE, 3.0);

        C3 = COEF * TSI * A3OVK2 * XNODP * AE * SINIO / EO;

        X1MTH2 = 1.0 - THETA2;
        C4 = 2.0 * XNODP * COEF1 * AODP * BETAO2 *
            (ETA * (2.0 + .5 * ETASQ) + 
             EO * (.5 + 2.0 * ETASQ) -
             2.0 * CK2 * TSI / (AODP * PSISQ) *
             (-3.0 * X3THM1 * (1.0 - 2.0 * EETA + ETASQ * (1.5 - .5 * EETA)) +
              .75 * X1MTH2 * (2.0 * ETASQ - EETA * (1.0 + ETASQ)) * 
              cos(2.0 * OMEGAO)));

        C5 = 2.0 * COEF1 * AODP * BETAO2 * (1.0 +
                                            2.75 * (ETASQ + EETA) +
                                            EETA * ETASQ);
        THETA4 = THETA2 * THETA2;
        TEMP1 = 3.0 * CK2 * PINVSQ * XNODP;
        TEMP2 = TEMP1 * CK2 * PINVSQ;
        TEMP3 = 1.25 * CK4 * PINVSQ * PINVSQ * XNODP;

        XMDOT = XNODP +
            .5 * TEMP1 * BETAO * X3THM1 +
            .0625 * TEMP2 * BETAO * (13.0 - 78.0 * THETA2 + 137.0 * THETA4);

        X1M5TH = 1.0 - 5.0 * THETA2;

        OMGDOT = -.5 * TEMP1 * X1M5TH +
            .0625 * TEMP2 * (7.0 - 114.0 * THETA2 + 395.0 * THETA4) +
            TEMP3 * (3.0 - 36.0 * THETA2 + 49.0 * THETA4);

        XHDOT1 = -TEMP1 * COSIO;

        XNODOT = XHDOT1 + (.5 * TEMP2 * (4.0 - 19.0 * THETA2) +
                           2.0 * TEMP3 * (3.0 - 7.0 * THETA2)) * COSIO;

        OMGCOF = BSTAR * C3 * cos(OMEGAO);

        XMCOF = -TOTHRD * COEF * BSTAR * AE / EETA;
        XNODCF = 3.5 * BETAO2 * XHDOT1 * C1;
        T2COF = 1.5 * C1;
        XLCOF = .125 * A3OVK2 * SINIO * (3.0 + 5.0 *COSIO) / (1.0 + COSIO);

        AYCOF = .25 * A3OVK2 * SINIO;
        DELMO = pow(1.0 + ETA * cos(XMO), 3.0);
        SINMO = sin(XMO);

        X7THM1 = 7.0 * THETA2 - 1.0;

/*      IF(ISIMP .EQ. 1) GO TO 90 */
        if(!(sat->prop.sgp4->sgp4_flags & SGP4_SIMPLE)) {
            C1SQ = C1 * C1;
            D2 = 4.0 * AODP * TSI * C1SQ;
            TEMP = D2 * TSI * C1 / 3.0;
            D3 = (17.0 * AODP + S4) * TEMP;
            D4 = .5 * TEMP * AODP * TSI * (221.0 * AODP + 31.0 * S4) * C1;
            T3COF = D2 + 2.0 * C1SQ;
            T4COF = .25 * (3.0 * D3 + C1 * (12.0 * D2 + 10.0 * C1SQ));
            T5COF = .2 * (3.0 * D4 +
                          12.0 * C1 * D3 +
                          6.0 * D2 * D2 +
                          15.0 * C1SQ * (2.0 * D2 + C1SQ));
        }
    }

    /*
     * UPDATE FOR SECULAR GRAVITY AND ATMOSPHERIC DRAG
     */

    XMDF = XMO + XMDOT * TSINCE;
    OMGADF = OMEGAO + OMGDOT * TSINCE;
    XNODDF = XNODEO + XNODOT * TSINCE;
    OMEGA = OMGADF;
    XMP = XMDF;
    TSQ = TSINCE * TSINCE;
    XNODE = XNODDF + XNODCF * TSQ;
    TEMPA = 1.0 - C1 * TSINCE;
    TEMPE = BSTAR * C4 * TSINCE;
    TEMPL = T2COF * TSQ;
    if(!(sat->prop.sgp4->sgp4_flags & SGP4_SIMPLE)) {
        DELOMG = OMGCOF * TSINCE;
        DELM = XMCOF * (pow(1.0 + ETA * cos(XMDF), 3) - DELMO);
        TEMP = DELOMG + DELM;
        XMP = XMDF + TEMP;
        OMEGA = OMGADF - TEMP;
        TCUBE = TSQ * TSINCE;
        TFOUR = TSINCE * TCUBE;
        TEMPA = TEMPA - D2 * TSQ - D3 * TCUBE - D4 * TFOUR;
        TEMPE = TEMPE + BSTAR * C5 * (sin(XMP) - SINMO);
        TEMPL = TEMPL + T3COF * TCUBE + TFOUR * (T4COF + TSINCE * T5COF);
    }

    A = AODP * TEMPA * TEMPA;
    E = EO - TEMPE;
    XL = XMP + OMEGA + XNODE + XNODP * TEMPL;
    BETA = sqrt(1.0 - E * E);
    XN = XKE / pow(A, 1.5);

    /*
     * LONG PERIOD PERIODICS
     */

    AXN = E * cos(OMEGA);
    TEMP = 1.0 / (A * BETA * BETA);
    XLL = TEMP * XLCOF * AXN;
    AYNL = TEMP * AYCOF;
    XLT = XL + XLL;
    AYN = E * sin(OMEGA) + AYNL;

    /*
     * SOLVE KEPLERS EQUATION
     */

    CAPU = fmod(XLT - XNODE, TWOPI);
    TEMP2 = CAPU;

    for(i = 0; i < 10; i++) {
        SINEPW = sin(TEMP2);
        COSEPW = cos(TEMP2);
        TEMP3 = AXN * SINEPW;
        TEMP4 = AYN * COSEPW;
        TEMP5 = AXN * COSEPW;
        TEMP6 = AYN * SINEPW;
        EPW = (CAPU - TEMP4 + TEMP3 - TEMP2) / (1.0 - TEMP5 - TEMP6) + TEMP2;

        if(fabs(EPW - TEMP2) <= E6A)
            break;

        TEMP2 = EPW;
    }

    /*
     * SHORT PERIOD PRELIMINARY QUANTITIES
     */

    ECOSE = TEMP5 + TEMP6;
    ESINE = TEMP3 - TEMP4;
    ELSQ = AXN * AXN + AYN * AYN;
    TEMP = 1.0 - ELSQ;
    PL = A * TEMP;
    R = A * (1.0 - ECOSE);

    TEMP1 = 1.0 / R;
    RDOT = XKE * sqrt(A) * ESINE * TEMP1;
    RFDOT = XKE * sqrt(PL) * TEMP1;
    TEMP2 = A * TEMP1;
    BETAL = sqrt(TEMP);
    TEMP3 = 1.0 / (1.0 + BETAL);

    COSU = TEMP2 * (COSEPW - AXN + AYN * ESINE * TEMP3);
    SINU = TEMP2 * (SINEPW - AYN - AXN * ESINE * TEMP3);

    U = actan(SINU, COSU);

    SIN2U = 2.0 * SINU * COSU;
    COS2U = 2.0 * COSU * COSU - 1.0;

    TEMP = 1.0 / PL;
    TEMP1 = CK2 * TEMP;
    TEMP2 = TEMP1 * TEMP;

    /*
     * UPDATE FOR SHORT PERIODICS
     */

    RK = R * (1.0 - 1.5 * TEMP2 * BETAL * X3THM1) +
        .5 * TEMP1 * X1MTH2 * COS2U;

    UK = U - .25 * TEMP2 * X7THM1 * SIN2U;
 
   XNODEK = XNODE + 1.5 * TEMP2 * COSIO * SIN2U;
   XINCK = XINCL + 1.5 * TEMP2 * COSIO * SINIO * COS2U;
   RDOTK = RDOT - XN * TEMP1 * X1MTH2 * SIN2U;
   RFDOTK = RFDOT + XN * TEMP1 * (X1MTH2 * COS2U + 1.5 * X3THM1);

   /*
    * ORIENTATION VECTORS
    */

   SINUK = sin(UK);
   COSUK = cos(UK);
   SINIK = sin(XINCK);
   COSIK = cos(XINCK);
   SINNOK = sin(XNODEK);
   COSNOK = cos(XNODEK);

   XMX = -SINNOK * COSIK;
   XMY = COSNOK * COSIK;
   UX = XMX * SINUK + COSNOK * COSUK;
   UY = XMY * SINUK + SINNOK * COSUK;
   UZ = SINIK * SINUK;
   VX = XMX * COSUK - COSNOK * SINUK;
   VY = XMY * COSUK - SINNOK * SINUK;
   VZ = SINIK * COSUK;

   /*
    * POSITION AND VELOCITY
    */

   pos->x = RK * UX;
   pos->y = RK * UY;
   pos->z = RK * UZ;

   dpos->x = RDOTK * UX + RFDOTK * VX;
   dpos->y = RDOTK * UY + RFDOTK * VY;
   dpos->z = RDOTK * UZ + RFDOTK * VZ;
}

/* For RCS Only -- Do Not Edit */
static char *rcsid[2] = {(char *)rcsid, "@(#) $RCSfile: sgp4.c,v $ $Date: 2001-04-10 14:40:47 $ $Revision: 1.1.1.1 $ $Name: not supported by cvs2svn $"};