SUBROUTINE iau_APCO ( DATE1, DATE2, EBPV, EHP, X, Y, S, : THETA, ELONG, PHI, HM, XP, YP, SP, : REFA, REFB, ASTROM ) *+ * - - - - - - - - - * i a u _ A P C O * - - - - - - - - - * * For a terrestrial observer, prepare star-independent astrometry * parameters for transformations between ICRS and observed coordinates. * The caller supplies the Earth ephemeris, the Earth rotation * information and the refraction constants as well as the site * coordinates. * * This routine is part of the International Astronomical Union's * SOFA (Standards of Fundamental Astronomy) software collection. * * Status: support routine. * * Given: * DATE1 d TDB as a 2-part... * DATE2 d ...Julian Date (Note 1) * EBPV d(3,2) Earth barycentric pos/vel (au, au/day, Note 2) * EHP d(3) Earth heliocentric position (au, Note 2) * X,Y d CIP X,Y (components of unit vector) * S d the CIO locator s (radians) * THETA d Earth rotation angle (radians) * ELONG d longitude (radians, east +ve, Note 3) * PHI d latitude (geodetic, radians, Note 3) * HM d height above ellipsoid (m, geodetic, Note 3) * XP,YP d polar motion coordinates (radians, Note 4) * SP d the TIO locator s' (radians, Note 4) * REFA d refraction constant A (radians, Note 5) * REFB d refraction constant B (radians, Note 5) * * Returned: * ASTROM d(30) star-independent astrometry parameters: * (1) PM time interval (SSB, Julian years) * (2-4) SSB to observer (vector, au) * (5-7) Sun to observer (unit vector) * (8) distance from Sun to observer (au) * (9-11) v: barycentric observer velocity (vector, c) * (12) sqrt(1-|v|^2): reciprocal of Lorenz factor * (13-21) bias-precession-nutation matrix * (22) longitude + s' (radians) * (23) polar motion xp wrt local meridian (radians) * (24) polar motion yp wrt local meridian (radians) * (25) sine of geodetic latitude * (26) cosine of geodetic latitude * (27) magnitude of diurnal aberration vector * (28) "local" Earth rotation angle (radians) * (29) refraction constant A (radians) * (30) refraction constant B (radians) * * Notes: * * 1) The TDB date DATE1+DATE2 is a Julian Date, apportioned in any * convenient way between the two arguments. For example, * JD(TDB)=2450123.7 could be expressed in any of these ways, among * others: * * DATE1 DATE2 * * 2450123.7 0D0 (JD method) * 2451545.0 -1421.3 (J2000 method) * 2400000.5 50123.2 (MJD method) * 2450123.5 0.2 (date & time method) * * The JD method is the most natural and convenient to use in cases * where the loss of several decimal digits of resolution is * acceptable. The J2000 method is best matched to the way the * argument is handled internally and will deliver the optimum * resolution. The MJD method and the date & time methods are both * good compromises between resolution and convenience. For most * applications of this routine the choice will not be at all * critical. * * TT can be used instead of TDB without any significant impact on * accuracy. * * 2) The vectors EB, EH, and all the ASTROM vectors, are with respect * to BCRS axes. * * 3) The geographical coordinates are with respect to the WGS84 * reference ellipsoid. TAKE CARE WITH THE LONGITUDE SIGN * CONVENTION: the longitude required by the present routine is * right-handed, i.e. east-positive, in accordance with geographical * convention. * * 4) XP and YP are the coordinates (in radians) of the Celestial * Intermediate Pole with respect to the International Terrestrial * Reference System (see IERS Conventions), measured along the * meridians 0 and 90 deg west respectively. SP is the TIO locator * s', in radians, which positions the Terrestrial Intermediate * Origin on the equator. For many applications, XP, YP and * (especially) SP can be set to zero. * * Internally, the polar motion is stored in a form rotated onto the * local meridian. * * 5) The refraction constants REFA and REFB are for use in a * dZ = A*tan(Z)+B*tan^3(Z) model, where Z is the observed * (i.e. refracted) zenith distance and dZ is the amount of * refraction. * * 6) It is advisable to take great care with units, as even unlikely * values of the input parameters are accepted and processed in * accordance with the models used. * * 7) In cases where the caller does not wish to provide the Earth * Ephemeris, the Earth rotation information and refraction * constants, the routine iau_APCO13 can be used instead of the * present routine. This starts from UTC and weather readings etc. * and computes suitable values using other SOFA routines. * * 8) This is one of several routines that inserts into the ASTROM * array star-independent parameters needed for the chain of * astrometric transformations ICRS <-> GCRS <-> CIRS <-> observed. * * The various routines support different classes of observer and * portions of the transformation chain: * * routines observer transformation * * iau_APCG iau_APCG13 geocentric ICRS <-> GCRS * iau_APCI iau_APCI13 terrestrial ICRS <-> CIRS * iau_APCO iau_APCO13 terrestrial ICRS <-> observed * iau_APCS iau_APCS13 space ICRS <-> GCRS * iau_APER iau_APER13 terrestrial update Earth rotation * iau_APIO iau_APIO13 terrestrial CIRS <-> observed * * Those with names ending in "13" use contemporary SOFA models to * compute the various ephemerides. The others accept ephemerides * supplied by the caller. * * The transformation from ICRS to GCRS covers space motion, * parallax, light deflection, and aberration. From GCRS to CIRS * comprises frame bias and precession-nutation. From CIRS to * observed takes account of Earth rotation, polar motion, diurnal * aberration and parallax (unless subsumed into the ICRS <-> GCRS * transformation), and atmospheric refraction. * * 9) The context array ASTROM produced by this routine is used by * iau_ATIOQ, iau_ATOIQ, iau_ATCIQ*, and iau_ATICQ*. * * Called: * iau_APER astrometry parameters: update ERA * iau_C2IXYS celestial-to-intermediate matrix, given X,Y and s * iau_PVTOB position/velocity of terrestrial station * iau_TRXPV product of transpose of r-matrix and pv-vector * iau_APCS astrometry parameters, ICRS-GCRS, space observer * iau_CR copy r-matrix * * This revision: 2013 August 31 * * SOFA release 2016-05-03 * * Copyright (C) 2016 IAU SOFA Board. See notes at end. * *----------------------------------------------------------------------- IMPLICIT NONE DOUBLE PRECISION DATE1, DATE2, EBPV(3,2), EHP(3), X, Y, S, : THETA, ELONG, PHI, HM, XP, YP, SP, REFA, REFB, : ASTROM(30) DOUBLE PRECISION SL, CL, R(3,3), PVC(3,2), PV(3,2) * - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - * Longitude with adjustment for TIO locator s'. ASTROM(22) = ELONG + SP * Polar motion, rotated onto the local meridian. SL = SIN(ASTROM(22)) CL = COS(ASTROM(22)) ASTROM(23) = XP*CL - YP*SL ASTROM(24) = XP*SL + YP*CL * Functions of latitude. ASTROM(25) = SIN(PHI) ASTROM(26) = COS(PHI) * Refraction constants. ASTROM(29) = REFA ASTROM(30) = REFB * Local Earth rotation angle. CALL iau_APER ( THETA, ASTROM ) * Disable the (redundant) diurnal aberration step. ASTROM(27) = 0D0 * CIO based BPN matrix. CALL iau_C2IXYS ( X, Y, S, R ) * Observer's geocentric position and velocity (m, m/s, CIRS). CALL iau_PVTOB ( ELONG, PHI, HM, XP, YP, SP, THETA, PVC ) * Rotate into GCRS. CALL iau_TRXPV ( R, PVC, PV ) * ICRS <-> GCRS parameters. CALL iau_APCS ( DATE1, DATE2, PV, EBPV, EHP, ASTROM ) * Store the CIO based BPN matrix. CALL iau_CR ( R, ASTROM(13) ) * Finished. *+---------------------------------------------------------------------- * * Copyright (C) 2016 * Standards Of Fundamental Astronomy Board * of the International Astronomical Union. * * ===================== * SOFA Software License * ===================== * * NOTICE TO USER: * * BY USING THIS SOFTWARE YOU ACCEPT THE FOLLOWING SIX TERMS AND * CONDITIONS WHICH APPLY TO ITS USE. * * 1. The Software is owned by the IAU SOFA Board ("SOFA"). * * 2. Permission is granted to anyone to use the SOFA software for any * purpose, including commercial applications, free of charge and * without payment of royalties, subject to the conditions and * restrictions listed below. * * 3. 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