Orbit propagation using Lyddane model (mean elements = secular) - DEPRECATED
[mean_kep_t2,osc_kep_t2] = CL_ex_lyddane(t1,mean_kep_t1,t2 [,er,mu,j1jn])
This function is deprecated.
Replacement function: CL_ex_propagate
Propagates orbital elements using Lyddane analytical model.
The mean elements for this model include secular effects only.
Notes:
- There can be 1 or N initial times, and 1 or N final times.
- The input argument "zonals" is deprecated as of CelestLab v3.0.0. It has been replaced by "j1jn".
See Propagation models for more details.
Initial time [days] (1x1 or 1xN)
Mean orbital elements at time t1 (6x1 or 6xN).
Final time [days] (1xN or 1x1).
(optional) Equatorial radius [m]. Default is %CL_eqRad
(optional) Gravitational constant [m^3/s^2]. Default is %CL_mu
(optional) Vector of zonal harmonics. Default is %CL_j1jn (Nz x 1)
Mean orbital elements at t2 (6xN)
Osculating orbital elements at t2 (6xN)
CNES - DCT/SB
// Example 1: one orbit, several final time instants: t1 = 12584 mean_kep_t1 = [7.e6; 0; 1.e-3; %pi/2; 0.1; 0.2]; t2 = 12587:1:12590 [mean_kep_t2,osc_kep_t2] = CL_ex_lyddane(t1,mean_kep_t1,t2) // Example 2: several orbits, several final time instants: t1 = 12584 mean_kep_t1 = [7.e6; 0; 1.e-3; %pi/2; 0.1; 0.2] * [1,1]; t2 = [12587, 12588]; [mean_kep_t2,osc_kep_t2] = CL_ex_lyddane(t1,mean_kep_t1,t2) |  |  |