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I am working on a home project where I need to closely solve an equation by iteration. M = E - e* sin(E) or another way (E - e*sin(E))/M = 1. M is previously solved for and e is given in the data message.

So would you plug in a number for E and check to see how close the value ends up to 1, then continue to adjust the plug in value of E untill the expression is within a set value to 1.00000?

Is there an "ideal" method to solving something like this in software?

The rest of my calculation function is shown as FP64 is defined as double

bool SV_pos_GAL_L1(int chan, FP64* x, FP64* y, FP64* z) //finds SV ECEF position in orbit at ref GAL system time
    FP64 smaxis = pow(GALChannel[chan].L1galData.sqrrtA, 2); //semi major axis
    FP64 nc = sqrt( MU/(pow(smaxis, 3)) ) + GALChannel[chan].L1galData.delta_n; //n corrected
    FP64 Tk = GALChannel[chan].L1galData.TOW - GALChannel[chan].L1galData.Toe;  //time since ephemeris
    FP64 M = GALChannel[chan].L1galData.M0 + nc * Tk; //mean anomaly

    FP64 E;

    FP64 v = atan( ((sqrt(1-pow(GALChannel[chan].L1galData.e,2)) * sin(E)) / (1-(GALChannel[chan].L1galData.e*cos(E))))  /  ((cos(E)-GALChannel[chan].L1galData.e) / (1-(cos(E)*GALChannel[chan].L1galData.e)))  );//true anomaly
    FP64 Omega = GALChannel[chan].L1galData.Omega0 + (Tk * (GALChannel[chan].L1galData.dot_Omega - GALChannel[chan].L1galData.w)) - ( GALChannel[chan].L1galData.w * GALChannel[chan].L1galData.Toe); //corrected longitude of ascinding node

    FP64 ArgLat = v + Omega; //argument of latitude
    FP64 Su = (GALChannel[chan].L1galData.Cus * sin(2*ArgLat)) + ( GALChannel[chan].L1galData.Cuc * cos(2*ArgLat)); //argument of latitude correction
    FP64 Sr = (GALChannel[chan].L1galData.Crs * sin(2*ArgLat)) + ( GALChannel[chan].L1galData.Crc * cos(2*ArgLat)); //radius correction
    FP64 Si = (GALChannel[chan].L1galData.Cis * sin(2*ArgLat)) + ( GALChannel[chan].L1galData.Cic * cos(2*ArgLat)); //inclination correction
    FP64 u = ArgLat + Su; //corrected arg latitude
    FP64 r = smaxis * (1 - (GALChannel[chan].L1galData.e * cos(E))) + Sr; //corrected radius
    FP64 i = GALChannel[chan].L1galData.i0 + Si + (GALChannel[chan].L1galData.dot_i * Tk); //corrected inclination
    FP64 x1 = r * cos(u);
    FP64 y1 = r * sin(u);
    x = (x1 * cos(Omega)) - (y1 * cos(i) * sin(Omega));
    y = (x1 * sin(Omega)) - (y1 * cos(i) * cos(Omega));
    z = y1 * sin(i);

    return true;
share|improve this question
have you heard about Newton's method? – V-X Jun 2 '13 at 20:04
After reading it seems semi familiar. Finite and calculus were many years ago for me. I may try a simple E2=M+e*sin(E1) and run it untill E2 matches E1 to so many places. Assuming the values converge rather than diverge – Joshua Hinton Jun 4 '13 at 3:59

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