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: http://www.stsci.edu/~sontag/spicedocs/cspice/spkgps_c.html
Дата изменения: Sat Dec 17 06:09:48 2005 Дата индексирования: Mon Apr 11 00:09:48 2016 Кодировка: Поисковые слова: п п п п п п п п п п t tauri |
Compute the geometric position of a target body relative to an observing body.
SPK
Variable I/O Description -------- --- -------------------------------------------------- targ I Target body. et I Target epoch. ref I Target reference frame. obs I Observing body. pos O Position of target. lt O Light time.
targ is the standard NAIF ID code for a target body. et is the epoch (ephemeris time) at which the position of the target body is to be computed. ref is the name of the reference frame to which the vectors returned by the routine should be rotated. This may be any frame supported by the CSPICE subroutine sxform_c. obs is the standard NAIF ID code for an observing body.
pos contains the position of the target body, relative to the observing body. This vector is rotated into the specified reference frame. Units are always km. lt is the one-way light time from the observing body to the geometric position of the target body at the specified epoch.
None.
spkgps_c computes the geometric position, T(t), of the target body and the geometric position, O(t), of the observing body relative to the first common center of motion. Subtracting O(t) from T(t) gives the geometric position of the target body relative to the observer. CENTER ----- O(t) | / | / | / | / T(t) - O(t) | / T(t) The one-way light time, tau, is given by | T(t) - O(t) | tau = ----------------- c For example, if the observing body is -94, the Mars Observer spacecraft, and the target body is 401, Phobos, then the first common center is probably 4, the Mars Barycenter. O(t) is the position of -94 relative to 4 and T(t) is the position of 401 relative to 4. The center could also be the Solar System Barycenter, body 0. For example, if the observer is 399, Earth, and the target is 299, Venus, then O(t) would be the position of 399 relative to 0 and T(t) would be the position of 299 relative to 0. Ephemeris data from more than one segment may be required to determine the positions of the target body and observer relative to a common center. spkgps_c reads as many segments as necessary, from as many files as necessary, using files that have been loaded by previous calls to spklef_c (load ephemeris file). spkgps_c is similar to spkgeo_c but returns geometric positions only.
The following code example computes the geometric position of the moon with respect to the earth and then prints the distance of the moon from the the earth at a number of epochs. Assume the SPK file SAMPLE.BSP contains ephemeris data for the moon relative to earth over the time interval whose endpoints are represented by the variables begin and end. #include <stdio.h> #include "SpiceUsr.h" . . . int main() { #define EARTH 399 #define MOON 301 #define N 100 #define TIMLEN 30 SpiceChar utc [TIMLEN]; SpiceDouble begin; SpiceDouble delta; SpiceDouble end; SpiceDouble et; SpiceDouble pos [3]; SpiceInt handle; /. Load the binary SPK ephemeris file. ./ spklef_c ( "SAMPLE.BSP", &handle ); . . . /. Divide the interval of coverage [begin,end] into n steps. At each step, compute the position, and print out the epoch in UTC time and position norm. ./ delta = ( end - begin ) / n for ( i = 0; i < N; i++ ) { et = begin + i * delta; spkgps_c ( MOON, et, "J2000", EARTH, pos, < ); et2utc_c ( et, "C", 0, utc ); printf ( "%s %25.15e\n", utc, vnorm_c(pos) ); } return ( 0 ); }
1) The ephemeris files to be used by spkgps_c must be loaded by spklef_c before spkgps_c is called.
1) If insufficient ephemeris data has been loaded to compute the necessary positions, the error SPICE(SPKINSUFFDATA) is signalled.
See: $Restrictions.
N.J. Bachman (JPL) J.E. McLean (JPL) W.L. Taber (JPL)
None.
-CSPICE Version 1.0.0, 30-MAY-1999 (NJB) (JEM) (WLT)
geometric position of one body relative to another