KPL/FK Trace Gas Orbiter (TGO) Spacecraft Frames Kernel =============================================================================== This frame kernel contains complete set of frame definitions for the ExoMars-16 Trace Gas Orbiter Spacecraft (TGO) including definitions for the TGO structures and TGO science instrument frames. This kernel also contains NAIF ID/name mapping for the TGO instruments. Version and Date ------------------------------------------------------------------------ Version 0.4 -- May 20, 2016 -- Jorge Diaz del Rio, ODC Space Anton Ledkov, IKI Preliminary Version. Added ACS and NOMAD frames. Modified FREND frame chain upon request from FREND Instrument Team. Corrected CaSSIS CRU and FSA frames orientations. Added CaSSIS filter name/ID mappings. Added SA and HGA frames. Added list of science operations frames. Version 0.3 -- March 17, 2016 -- Jorge Diaz del Rio, ODC Space Preliminary Version. Corrected rotations in TGO_CASSIS_CRU and in TGO_CASSIS_FSA frame definitions. Added FREND frames. Version 0.2 -- March 11, 2016 -- Jorge Diaz del Rio, ODC Space Preliminary Version. Added CaSSIS frames. Version 0.1 -- January 26, 2016 -- Jorge Diaz del Rio, ODC Space Preliminary Version. Added TGO_SPACECRAFT frame for its use with test CK kernel. Version 0.0 -- December 17, 2015 -- Jorge Diaz del Rio, ODC Space Preliminary Version. Only TGO Name to NAIF ID mappings for their use with test SPK kernel. References ------------------------------------------------------------------------ 1. ``Frames Required Reading'', NAIF 2. ``Kernel Pool Required Reading'', NAIF 3. ``C-Kernel Required Reading'', NAIF 4. ``Exo-Mars: Science Operations Centre - Flight Dynamics - Pointing Timeline-ICD,'' EXM-GS-ICD-ESC-50003, Issue 1.4, 15 December 2015 5. ``CaSSIS Rotation Axis Determination Report,'' EXM-CA-TRE-UBE-00112 Issue 0.7, 1 March 2016 6. ``The Color and Stereo Surface Imaging System (CaSSIS) for ESA's Trace Gas Orbiter.'' Eighth International Conference on Mars (2014) N. Thomas et al. 7. ``FREND Mechanical ICD Drawings,'' EXM-FR-DRW-IKI-0020, Issue 1.2, 1 March 2015 8. Email from FREND PM (Alexey Malakhov) on March 17, 2016 (Re. TGO FREND FK/IK approach) 9. ``High Resolution Middle Infrared Spectrometer, a Part of Atmospheric Chemistry Suite (ACS) for ExoMars 2016 Trace Gas Orbiter,'' International Conference on Space Optics, Tenerife 7-10 October 2014 10. ``NOMAD Experiment ICD,'' EXM-PL-ICD-ESA-00025, Issue 2.7 2014-09-23 11. ``Atmospheric Chemistry Suite (ACS): a Set of Infrared Spectrometers for Atmospheric Measurements onboard ExoMars Trace Gas Orbiter'', A. Trokhimovskiy et al. 12. TGO Science Operations Frames Definition Kernel, latest version. Contact Information ------------------------------------------------------------------------ If you have any questions regarding this file contact SPICE support at ESAC: Marc Costa Sitja (+34) 91-8131-457 mcosta@sciops.esa.int, esa_spice@sciops.esa.int or SPICE support at IKI: Anton Ledkov +7 (495) 333-12-66 aledkov@rssi.ru or NAIF at JPL: Boris Semenov (818) 354-8136 Boris.Semenov@jpl.nasa.gov Implementation Notes ------------------------------------------------------------------------ This file is used by the SPICE system as follows: programs that make use of this frame kernel must "load" the kernel normally during program initialization. Loading the kernel associates the data items with their names in a data structure called the "kernel pool". The routine that loads a kernel into the pool is shown below: FORTRAN: (SPICELIB) CALL FURNSH ( frame_kernel_name ) C: (CSPICE) furnsh_c ( frame_kernel_name ); IDL: (ICY) cspice_furnsh, frame_kernel_name MATLAB: (MICE) cspice_furnsh ( 'frame_kernel_name' ) This file was created and may be updated with a text editor or word processor. TGO NAIF ID Codes -- Summary Section ------------------------------------------------------------------------ The following names and NAIF ID codes are assigned to the TGO spacecraft, its structures and science instruments (the keywords implementing these definitions are located in the section "TGO NAIF ID Codes -- Definition Section" at the end of this file): TGO Spacecraft and Spacecraft Structures names/IDs: TGO -143 (synonym: EXOMARS-ORBITER) ACS names/IDs: TGO_ACS_NIR_NAD -143111 TGO_ACS_NIR_OCC -143112 TGO_ACS_MIR -143120 TGO_ACS_TIRVIM -143130 TGO_ACS_TIRVIM_SPC -143131 TGO_ACS_TIRVIM_NAD -143132 TGO_ACS_TIRVIM_OCC -143133 CaSSIS names/IDs: TGO_CASSIS -143400 TGO_CASSIS_PAN -143410 TGO_CASSIS_RED -143420 TGO_CASSIS_NIR -143430 TGO_CASSIS_BLU -143440 FREND names/IDs: TGO_FREND -143200 TGO_FREND_HE -143210 TGO_FREND_SC -143220 NOMAD names/IDs: TGO_NOMAD_LNO -143310 TGO_NOMAD_LNO_NAD -143311 TGO_NOMAD_LNO_OCC -143312 TGO_NOMAD_SO -143320 TGO_NOMAD_UVIS_NAD -143331 TGO_NOMAD_UVIS_OCC -143332 TGO Frames ------------------------------------------------------------------------ The following TGO frames are defined in this kernel file: Name Relative to Type NAIF ID ====================== =================== ============ ======= TGO Spacecraft and Spacecraft Structures frames: ------------------------------------------------ TGO_SPACECRAFT J2000 CK -143000 TGO_SA+Z_GIMBAL TGO_SPACECRAFT FIXED -143010 TGO_SA+Z TGO_SA+Z_GIMBAL CK -143011 TGO_SA-Z_GIMBAL TGO_SPACECRAFT FIXED -143012 TGO_SA-Z TGO_SA-Z_GIMBAL CK -143013 TGO_HGA_EL TGO_SPACECRAFT CK -143021 TGO_HGA_AZ TGO_HGA_EL CK -143022 TGO_HGA TGO_HGA_AZ FIXED -143025 ACS frames: ----------- TGO_ACS_NIR_BASE TGO_SPACECRAFT FIXED -143100 TGO_ACS_NIR_NAD TGO_ACS_NIR_BASE FIXED -143111 TGO_ACS_NIR_OCC TGO_ACS_NIR_BASE FIXED -143112 TGO_ACS_MIR TGO_SPACECRAFT FIXED -143120 TGO_ACS_TIRVIM_BASE TGO_SPACECRAFT FIXED -143105 TGO_ACS_TIRVIM_SCAN TGO_ACS_TIRVIM_BASE CK -143106 TGO_ACS_TIRVIM TGO_ACS_TIRVIM_SCAN FIXED -143130 TGO_ACS_TIRVIM_SPC TGO_ACS_TIRVIM_BASE FIXED -143131 TGO_ACS_TIRVIM_NAD TGO_ACS_TIRVIM_BASE FIXED -143132 TGO_ACS_TIRVIM_OCC TGO_ACS_TIRVIM_BASE FIXED -143133 CaSSIS frames: -------------- TGO_CASSIS_CRU TGO_SPACECRAFT FIXED -143400 TGO_CASSIS_TEL TGO_CASSIS_CRU CK -143410 TGO_CASSIS_FSA TGO_CASSIS_TEL FIXED -143420 FREND frames: ------------- TGO_FREND TGO_SPACECRAFT FIXED -143200 NOMAD frames: ------------- TGO_NOMAD_LNO_BASE TGO_SPACECRAFT FIXED -143300 TGO_NOMAD_LNO_SCAN TGO_NOMAD_LNO_BASE CK -143305 TGO_NOMAD_LNO TGO_NOMAD_LNO_BASE CK -143310 TGO_NOMAD_LNO_NAD TGO_NOMAD_LNO_BASE FIXED -143311 TGO_NOMAD_LNO_OCC TGO_NOMAD_LNO_BASE FIXED -143312 TGO_NOMAD_SO TGO_SPACECRAFT FIXED -143320 TGO_NOMAD_UVIS_BASE TGO_SPACECRAFT FIXED -143330 TGO_NOMAD_UVIS_NAD TGO_NOMAD_UVIS_BASE FIXED -143331 TGO_NOMAD_UVIS_OCC TGO_NOMAD_UVIS_BASE FIXED -143332 In addition, the following frames, in use by the ExoMars-2016 mission, are defined in other kernel: Name Relative to Type NAIF ID ====================== =================== ============ ======= ExoMars-2016 mission science operations frames (1): --------------------------------------------------- TGO_MARS_NOA J2000 DYNAMIC -143900 TGO_MARS_NPO J2000 DYNAMIC -143910 (1) These frames are defined in the frame kernel file "tgo_ops_vNN.tf" (where NN is the version number). These frames can be used 'as is' or to define default TGO attitude profiles. In order to use them for the later together this frames kernel, additional fixed-offset frames kernel(s) need to be loaded. See the section ``Using these frames'' in the TGO science operations Frame Definitions Kernel comment area for further details. ExoMars-2016 Frames Hierarchy -------------------------------------------------------------------------- The diagram below shows the ExoMars-2016 frames hierarchy (except for science operations frames): "J2000" INERTIAL +-----------------------------------------------------+ | | | |<-pck | |<-pck | | | v | v "IAU_MARS" | "IAU_EARTH" MARS BODY-FIXED |<-ck EARTH BODY-FIXED --------------- | ---------------- v "TGO_SPACECRAFT" +----------------------------------------------------+ | | . | |<-fixed |<-fixed . |<-ck | | . | v | . v "TGO_SA+Z_GIMBAL" | . "TGO_HGA_EL" ----------------- | . ------------ | | . | |<-ck v . |<-ck | "TGO_SA-Z_GIMBAL" . | v ----------------- . v "TGO_SA+Z" | . "TGO_HGA_AZ" ---------- |<-ck . ------------ | . | v . |<-fixed "TGO_SA-Z" . | ---------- . v . "TGO_HGA" . --------- V Individual instrument frame trees are provided in the other sections of this file Please refer to the ACS, CaSSIS, FREND and NOMAD sections for the frame hierarchy of each payload; and to the TGO science operations frame definitions kernel [12] for further details on these frame definitions. TGO Spacecraft and Spacecraft Structures Frames ------------------------------------------------------------------------ This section of the file contains the definitions of the spacecraft and spacecraft structures frames. TGO Spacecraft Frames -------------------------------------- According to [4] the TGO spacecraft reference frame -- TGO_SPACECRAFT is defined as follows: - +X axis is perpendicular to the launch vehicle interface plane and points towards the Schiaparelli Entry, Descent and Landing Demonstrator Module (EDM) attachment point; - -Y axis is perpendicular to the payload science deck and points towards the payload side; representing the reference spacecraft line of sight towards Mars during science operations; - +Z axis completes the right-handed frame. - the origin of this frame is the launch vehicle interface point. These diagrams illustrate the TGO_SPACECRAFT frame: -X s/c side (HGA side) view: ---------------------------- ^ | toward Mars | Science Deck ._____________. .__ _______________. | | .______________ ___. | \ \ \ | | / \ \ | | / / \ | | / / / | | \ \ `. | | .' \ \ | | / / | o| |o | / / | | \ \ .' | | `. \ \ | | / / / | | \ / / | .__\ \_______________/ | +Xsc | \_______________\ \__. +Z Solar Array <--------x______. -Z Solar Array +Zsc .__|__. .' | `. / | \ . `. v +Ysc . +Xsc is into | `o' | the page . | . \ | / `. .' HGA ` --- ' -Y s/c side (science deck side) view: ------------------------------------- _____ / \ EDM |+Xsc | .______^______. | | | | | | +Zsc | | | o==/ /==================o<-------x |>o==================/ /==o +Z Solar Array | +Ysc | -Z Solar Array | | | | | | | | | | ._____________. HGA .' `. /___________\ `.|.' +Ysc is into the page. Since the orientation of the TGO_SPACECRAFT frame is computed on-board, sent down in telemetry, and stored in the s/c CK files, it is defined as a CK-based frame. These sets of keywords define the TGO_SPACECRAFT frame: \begindata FRAME_TGO_SPACECRAFT = -143000 FRAME_-143000_NAME = 'TGO_SPACECRAFT' FRAME_-143000_CLASS = 3 FRAME_-143000_CLASS_ID = -143000 FRAME_-143000_CENTER = -143 CK_-143000_SCLK = -143 CK_-143000_SPK = -143 OBJECT_-143_FRAME = 'TGO_SPACECRAFT' \begintext TGO Solar Array Frames -------------------------------------------------------------------------- TGO solar arrays are articulated (having one degree of freedom), therefore the Solar Array frames, TGO_SA+Z and TGO_SA-Z, are defined as CK frames with their orientation given relative to TGO_SA+Z_GIMBAL and TGO_SA-Z_GIMBAL respectively. TGO_SA+Z_GIMBAL and TGO_SA-Z_GIMBAL are two ``fixed-offset'' frames, defined with respect to TGO_SPACECRAFT, as follows: - +Y is parallel to the longest side of the array, positively oriented from the yoke to the end of the wing; - +Z is aligned to the spacecraft bus -Xsc, pointing on the nominal oposite direction to the EDM attachment side; - +X completes the right-handed frame. - the origin of the frame is located at the yoke geometric center. Both Solar Array frames (TGO_SA+Z and TGO_SA-Z) are defined as follows: - +Y is parallel to the longest side of the array, positively oriented from the yoke to the end of the wing; - +Z is normal to the solar array plane, the solar cells facing +Z; - +X completes the right-handed frame; - the origin of the frame is located at the yoke geometric center. The axis of rotation is parallel to the Z axis of the spacecraft and the solar array frames. This diagram illustrates the TGO_SA+Z_GIMBAL, TGO_SA+Z, TGO_SA-Z_GIMBAL and TGO_SA-Z frames: -X s/c side (HGA side) view: ---------------------------- ^ | toward Mars | Science Deck ._____________. .__ _______________. ^+Xsa+z0 | .______________ ___. | \ \ \ |+Xsa+z | / \ \ | | / / +Ysa+z0 \ || +Zsa-z0 / +Ysa-z0 / / | | \ \ +Ysa+z `.|| +Zsa-z .' +Ysa-z \ \ | | / / <-------o| |o--------> / / | | \ \ .'+Zsa+z ||`. \ \ | | / / / +Zsa+z0 || \ / / | .__\ \_______________/ | +Xsc || \_______________\ \__. +Z Solar Array <--------x______.v -Z Solar Array +Zsc .__|__. +Xsa-z .' | `. +Xsa-z0 / | \ . `. v +Ysc . +Xsc is into the page; | `o' | +Zsa+z, +Zsa+z0, . | . +Zsa-z and +Zsa-z0 are \ | / out of the page. `. .' HGA ` --- ' These sets of keywords define solar array frames: \begindata FRAME_TGO_SA+Z_GIMBAL = -143010 FRAME_-143010_NAME = 'TGO_SA+Z_GIMBAL' FRAME_-143010_CLASS = 4 FRAME_-143010_CLASS_ID = -143010 FRAME_-143010_CENTER = -143 TKFRAME_-143010_RELATIVE = 'TGO_SPACECRAFT' TKFRAME_-143010_SPEC = 'ANGLES' TKFRAME_-143010_UNITS = 'DEGREES' TKFRAME_-143010_AXES = ( 3, 1, 2 ) TKFRAME_-143010_ANGLES = ( 0.0, -90.0, 90.0 ) FRAME_TGO_SA+Z = -143011 FRAME_-143011_NAME = 'TGO_SA+Z' FRAME_-143011_CLASS = 3 FRAME_-143011_CLASS_ID = -143011 FRAME_-143011_CENTER = -143 CK_-143011_SCLK = -143 CK_-143011_SPK = -143 FRAME_TGO_SA-Z_GIMBAL = -143012 FRAME_-143012_NAME = 'TGO_SA-Z_GIMBAL' FRAME_-143012_CLASS = 4 FRAME_-143012_CLASS_ID = -143012 FRAME_-143012_CENTER = -143 TKFRAME_-143012_RELATIVE = 'TGO_SPACECRAFT' TKFRAME_-143012_SPEC = 'ANGLES' TKFRAME_-143012_UNITS = 'DEGREES' TKFRAME_-143012_AXES = ( 3, 1, 2 ) TKFRAME_-143012_ANGLES = ( 0.0, 90.0, 90.0 ) FRAME_TGO_SA-Z = -143013 FRAME_-143013_NAME = 'TGO_SA-Z' FRAME_-143013_CLASS = 3 FRAME_-143013_CLASS_ID = -143013 FRAME_-143013_CENTER = -143 CK_-143013_SCLK = -143 CK_-143013_SPK = -143 \begintext TGO High Gain Antenna Frame --------------------------- The TGO High Gain Antenna is attached to the -X side of the s/c bus by a gimbal providing two degrees of freedom and it articulates during flight to track Earth. To incorporate rotations in the gimbal the HGA frame chain includes three frames: TGO_HGA_EL, TGO_HGA_AZ, and TGO_HGA. The first two frames are defined as CK-based frames and are co-aligned with the spacecraft frame in the zero gimbal position. In a non-zero position the TGO_HGA_EL is rotated from the spacecraft frame by an elevation angle about +Y and the TGO_TGO_AZ frame is rotated from the TGO_HGA_EL frame by an azimuth angle about +Z. These rotations are stored in separated segments in CK files. The TGO_HGA frame is defined as follows: - +Z axis is in the antenna boresight direction; - +Y axis points from the gimbal toward the antenna dish symmetry axis; - +X axis completes the right hand frame; - the origin of the frame is located at the geometric center of the HGA dish outer rim circle. The TGO_HGA frame is defined a fixed offset frame relative to the TGO_HGA_AZ frame and is rotated by -90 degrees about +Y from it. This diagram illustrates the TGO_HGA frames in the zero gimbal position: -X s/c side (HGA side) view: ---------------------------- ^ | toward Mars | Science Deck ._____________. .__ _______________. | | .______________ ___. | \ \ \ | | / \ \ | | / / \ | | / / / | | \ \ `. | | .' \ \ | | / / | o| |o | / / | | \ \ .' | | `. \ \ | | / / / | | \ / / | .__\ \_______________/ | +Xsc | \_______________\ \__. +Z Solar Array <---<------x______. -Z Solar Array +Zsc +Zhga_az|__. +Zhga_el | `. / | \ . `. v +Ysc . +Xsc, +Xhga_az and <-------o +Zhga| +Xhag_ez are into +Xhga . | . the page; +Zhga is \ | / out of the page. `. | .' HGA ` -V- ' +Yhga This set of keywords defines the HGA frame as a CK frame: \begindata FRAME_TGO_HGA_EL = -143021 FRAME_-143021_NAME = 'TGO_HGA_EL' FRAME_-143021_CLASS = 3 FRAME_-143021_CLASS_ID = -143021 FRAME_-143021_CENTER = -226 CK_-143021_SCLK = -226 CK_-143021_SPK = -226 FRAME_TGO_HGA_AZ = -143022 FRAME_-143022_NAME = 'TGO_HGA_AZ' FRAME_-143022_CLASS = 3 FRAME_-143022_CLASS_ID = -143022 FRAME_-143022_CENTER = -226 CK_-143022_SCLK = -226 CK_-143022_SPK = -226 FRAME_TGO_HGA = -143025 FRAME_-143025_NAME = 'TGO_HGA' FRAME_-143025_CLASS = 4 FRAME_-143025_CLASS_ID = -143025 FRAME_-143025_CENTER = -226 TKFRAME_-143025_RELATIVE = 'TGO_HGA_AZ' TKFRAME_-143025_SPEC = 'ANGLES' TKFRAME_-143025_UNITS = 'DEGREES' TKFRAME_-143025_ANGLES = ( 0.000, 90.000, 0.000 ) TKFRAME_-143025_AXES = ( 1, 2, 3 ) \begintext ACS Frames ------------------------------------------------------------------------ This section of the file contains the definitions of the Atmospheric Chemistry Suite (ACS) instrument frames. ACS Frame Tree ~~~~~~~~~~~~~~ The diagram below shows the ACS frame hierarchy. "J2000" INERTIAL +-----------------------------------------------------+ | | | |<-pck | |<-pck | | | v | v "IAU_MARS" | "IAU_EARTH" MARS BODY-FIXED |<-ck EARTH BODY-FIXED --------------- | ---------------- v "TGO_SPACECRAFT" +--------------------------------+ "TGO_ACS_TIRVIM" | | | ---------------- |<-fixed |<-fixed | ^ | | | |<-fixed | v | | | "TGO_ACS_MIR" | "TGO_ACS_TIRVIM_SCAN" | ------------- | --------------------- v | ^ "TGO_ACS_NIR_BASE" | | +----------------+ | |<-ck | | V | |<-fixed |<-fixed "TGO_ACS_TIRVIM_BASE" | | | +--------------------------+ v | | | | "TGO_ACS_NIR_NAD" | |<-fixed |<-fixed |<-fixed ----------------- | | | | v | | | "TGO_ACS_NIR_OCC" | | | ----------------- | | | | | | v | v "TGO_ACS_TIRVIM_NAD" | "TGO_ACS_TIRVIM_SPC" -------------------- | -------------------- | v "TGO_ACS_TIRVIM_OCC" -------------------- ACS Near Infrared (NIR) Base and TIRVIM Base Frames ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The ACS Near Infrared (NIR) spectrometer and the Thermal Infrared V-shape Interferometer Mounting Spectrometer (TIRVIM) are rigidly mounted on the spacecraft science deck. Therefore, the base frames associated with them -- the ACS NIR Base frame, TGO_ACS_NIR_BASE, and the ACS TIRVIM Base frame, TGO_ACS_TIRVIM_BASE -- are specified as a fixed offset frame with its orientation given relative to the JUICE_SPACECRAFT frame. Both, the ACS NIR Base frame and the ACS TIRVIM Base frame are defined as follows (from [9]): - +X axis is along the nominal spectrometer mirror rotation axis, and it is nominally co-aligned with the spacecraft +Z axis; - +Z axis is co-aligned with the -Y spacecraft axis and it is along the spectrometer boresight in "nadir" position; - +Y axis completes the right-handed frame; - the origin of this frame is located at the intersection of the spectrometer scanning mirror rotation axis and mirror central axis. These diagrams illustrate the nominal TGO_ACS_NIR_BASE and the TGO_ACS_TIRVIM_BASE frame with respect to the spacecraft frame. -X s/c side (HGA side) view: ---------------------------- ^ | toward Mars | | ^ +Z*base | Science deck | .___________|_. .__ _______________. | <-------o +Y*base______________ ___. | \ \ \ | +X*base '.__| / \ \ | | / / \ | | / / / | | \ \ `. | | .' \ \ | | / / | o| |o | / / | | \ \ .' | | `. \ \ | | / / / | | \ / / | .__\ \_______________/ | +Xsc | \_______________\ \__. +Z Solar Array <--------x______. -Z Solar Array +Zsc .__|__. .' | `. / | \ . `. v +Ysc . +Xsc is into | `o' | the page and +Y*base . | . is out of the page \ | / `. .' HGA ` --- ' Note that ``*base'' indicates ``acs_nir_base'' or ``acs_tirvim_base''. -Y s/c side (science deck side) view: ------------------------------------- _____ / \ EDM | | ._____________. |+X*base | +Z*base | <------o | +Zsc | '__|_| o==/ /==================o<| +Xsc ^ | |>o==================/ /==o +Z Solar Array | | | -Z Solar Array | | v +Y*base <-------x | +Zsc +Ysc | | | | | ._____________. HGA .' `. /___________\ `.|.' +Ysc is into the page; +Z*base is out of the page. Note that ``*base'' indicates ``acs_nir_base'' or ``acs_tirvim_base''. Nominally, a rotation of -90 degrees about +Y spacecraft axis and then a rotation of 90 degrees about the +X spacecraft axis are required to align the TGO_SPACECRAFT to the TGO_ACS_NIR_BASE and TGO_ACS_TIRVIM_BASE frames. Since the SPICE frames subsystem calls for specifying the reverse transformation--going from the instrument or structure frame to the base frame--as compared to the description given above, the order of rotations assigned to the TKFRAME_*_AXES keyword is also reversed compared to the above text, and the signs associated with the rotation angles assigned to the TKFRAME_*_ANGLES keyword are the opposite from what is written in the above text. \begindata FRAME_TGO_ACS_NIR_BASE = -143100 FRAME_-143100_NAME = 'TGO_ACS_NIR_BASE' FRAME_-143100_CLASS = 4 FRAME_-143100_CLASS_ID = -143100 FRAME_-143100_CENTER = -143 TKFRAME_-143100_RELATIVE = 'TGO_SPACECRAFT' TKFRAME_-143100_SPEC = 'ANGLES' TKFRAME_-143100_UNITS = 'DEGREES' TKFRAME_-143100_AXES = ( 3, 2, 1 ) TKFRAME_-143100_ANGLES = ( 0.0, 90.0, -90.0 ) FRAME_TGO_ACS_TIRVIM_BASE = -143105 FRAME_-143105_NAME = 'TGO_ACS_TIRVIM_BASE' FRAME_-143105_CLASS = 4 FRAME_-143105_CLASS_ID = -143105 FRAME_-143105_CENTER = -143 TKFRAME_-143105_RELATIVE = 'TGO_SPACECRAFT' TKFRAME_-143105_SPEC = 'ANGLES' TKFRAME_-143105_UNITS = 'DEGREES' TKFRAME_-143105_AXES = ( 3, 2, 1 ) TKFRAME_-143105_ANGLES = ( 0.0, 90.0, -90.0 ) \begintext ACS TIRVIM Scanning Mirror frame ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The Thermal Infrared V-shape Interferometer Mounting Spectrometer (TIRVIM) has a single-axis scanning mirror that provide the possibility of observation in nadir and any position +/-90 degrees from it (see [11]). Since this scanning mirrors rotate with respect to the TIRVIM base, the TGO_ACS_TIRVIM frame is defined as a CK frame with its orientation provided in a CK file relative TGO_ACS_TIRVIM_BASE frames. The ACS TIRVIM scanning mirror frame -- TGO_ACS_TIRVIM_SCAN -- is defined as (from [9]): - +X axis is along the nominal spectrometer scanning mirror rotation axis, and it is nominally co-aligned with the spectrometer base +X axis; - +Z axis is parallel to the scanning mirror boresight that defines the spectrometer boresight; in 'nadir' scanner position is co-aligned with the -Y spacecraft axis; in 'space' scanner position is co-aligned with the +X spacecraft axis; - +Y axis completes the right-handed frame; - the origin of this frame is located at the intersection of the spectrometer scanning mirror rotation axis and mirror central axis. For an arbitrary scanner angle, the scanning mirror frame is rotated by this angle about the +X axis with respect to its base frame. These diagrams illustrate the TGO_ACS_TIRVIM frames for scanner positions 'nadir' ( 0.0 degrees), solar 'occultation' (+67.07 deg from the spacecraft -Y axis to the -X in the XY plane) and 'space' ( +90.00 deg from the spacecraft -Y axis to the +X in the XY plane). All diagrams are +Z s/c side view: Scanner in 'nadir' position Scanner in 'occultation' position --------------------------- --------------------------------- +Zbase +Zbase ^ +Zscan ^ | | +Zscan | Science |_~67deg .^ | ACS Deck | \ .' Science Deck ._____|___________. ._ACS_| .'________. | o-------> | | o-------> | ============o= +Ybase ========\===o= +Ybase SA+Z +Yscan SA+Z \ | | | | \ +Yscan | | | v | ._________________. ._________________. <-------o o /| <-------o o /| +Xsc |+Zsc \ / |\ +Xsc |+Zsc \ / |\ | o | : | o | : | \ |/ | \ |/ v \| v \| +Ysc HGA +Ysc HGA Scanner in 'space' position --------------------------- +Zsc, +Xbase, and +Xscan are +Zbase out of the page; ^ +Yscan | | Science 90deg.-| ACS Deck +Zscan _/___|___________. <-------o-------> | ============o= +Ybase SA+Z | | | | | ._________________. <-------o o /| +Xsc |+Zsc \ / |\ | o | : | \ |/ v \| +Ysc HGA These sets of keywords define the NIR and TIRVIM scanning mirror frames: \begindata FRAME_TGO_ACS_TIRVIM = -143106 FRAME_-143106_NAME = 'TGO_ACS_TIRVIM_SCAN' FRAME_-143106_CLASS = 3 FRAME_-143106_CLASS_ID = -143106 FRAME_-143106_CENTER = -143 CK_-143106_SCLK = -143 CK_-143106_SPK = -143 \begintext ACS TIRVIM Detector Frame ~~~~~~~~~~~~~~~~~~~~~~~~~ Since the TIRVIM detector receives radiation through the scanner and has a single pixel, its frame, TGO_ACS_TIRVIM is defined to be nominally co-aligned with the TIRVIM scanner frame TGO_ACS_TIRVIM_SCAN. This frame is introduced to allow incorporating into the TIRVIM frame chain any misalignment between the scanner boresight direction and the detector view directions. Currently no misalignment data are available, and, therefore, the set of keywords below makes these frames co-aligned with their reference. \begindata FRAME_TGO_ACS_TIRVIM = -143130 FRAME_-143130_NAME = 'TGO_ACS_TIRVIM' FRAME_-143130_CLASS = 4 FRAME_-143130_CLASS_ID = -143130 FRAME_-143130_CENTER = -143 TKFRAME_-143130_RELATIVE = 'TGO_ACS_TIRVIM_SCAN' TKFRAME_-143130_SPEC = 'ANGLES' TKFRAME_-143130_UNITS = 'DEGREES' TKFRAME_-143130_AXES = ( 1, 2, 3 ) TKFRAME_-143130_ANGLES = ( 0.0, 0.0, 0.0 ) \begintext ACS NIR nadir and occultation and TIRVIM fixed scanner position frames ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The ACS NIR spectrometer is capable of performing parallel nadir and limb/solar occultation measurements (see [11]) using the two periscope apertures (one of them "looking" nadir) and an off-axis parabolic mirror that defines the NIR occultation boresight to be at 67.07 degrees from -Y spacecraft axis towards the -X spacecraft axis in the XY plane, therefore two frames -- TGO_ACS_NIR_NAD and TGO_ACS_NIR_OCC -- are defined as fixed-offset frames to allow computing the orientation of the ACS NIR field-of-view in both cases. Similarly, the ACS TIRVIM scanning mirror can be used in several positions for external observations, being the most common 'nadir' and cold 'space.' In addition, and through the usage of an off-pointed periscope and an off-axis parabolic mirror, a solar 'occultation' observation can be performed in parallel to the use of the scanning mirror. Therefore, for the ACS TIRVIM a set of 'fixed-mirror-position' frames -- 'nadir', 'occultation and 'space' -- are defined as fixed-offset frames to allow computing these orientations without needing to use CK. Each of these 'fixed-position' frames is defined as a fixed offset frame with respect to the corresponding base frame for each of the spectrometers as follows (from [9]): - +X axis is along the nominal spectrometer mirror rotation axis, and it is nominally co-aligned with the spectrometer base +X axis; - +Z axis is parallel to the scanning mirror boresight that defines the spectrometer boresight at a particular angle; - +Y axis completes the right-handed frame; - the origin of this frame is located at the intersection of the spectrometer scanning mirror rotation axis and mirror central axis. These diagram illustrates fixed mirror pointing directions co-aligned with the +Z axis of the corresponding 'fixed-mirro-position' frame: +Z s/c side view ---------------- +Z*base +Z*base ^ +Z*nad ^ | | +Z*occ | Science |_~67deg .^ | ACS Deck | \ .' Science Deck ._____|___________. ._ACS_| .'________. | o-------> | | o-------> | ============o= +Y*base ========\===o= +Y*base SA+Z +Y*nad SA+Z \ | | | | \ +Y*occ | | | | v | ._________________. ._________________. <-------o o /| <-------o o /| +Xsc |+Zsc \ / |\ +Xsc |+Zsc \ / |\ | o | : | o | : | \ |/ | \ |/ v \| v \| +Ysc HGA +Ysc HGA +Zbase ^ +Yspc +Zsc, +X*base, +X*nad, +X*occ | and +Xspc are out of the page. | Science 90deg.-| ACS Deck +Zspc _/___|___________. <-------o-------> | ============o= +Ybase SA+Z | | | | | ._________________. <-------o o /| +Xsc |+Zsc \ / |\ | o | : | \ |/ v \| +Ysc HGA ``*base'' corresponds to ``acs_nir_base'' or ``acs_tirvim_base''; ``*nad'' corresponds to ``acs_nir_nad'' or ``acs_tirvim_nad''; and ``*occ'' corresponds to ``acs_nir_occ'' or ``acs_tirvim_occ''. These 'fixed-position' frames are nominally rotated about the +X axis of the corresponding spectrometer base frames by the following angles: Frame name Rotation Angle, deg ---------------------- ------------------- TGO_ACS_NIR_NAD 0.00 TGO_ACS_NIR_OCC -67.07 TGO_ACS_TIRVIM_NAD 0.00 TGO_ACS_TIRVIM_OCC -67.07 TGO_ACS_TIRVIM_SPA +90.00 Since the SPICE frames subsystem calls for specifying the reverse transformation--going from the instrument or structure frame to the base frame--as compared to the description given above, the order of rotations assigned to the TKFRAME_*_AXES keyword is also reversed compared to the above text, and the signs associated with the rotation angles assigned to the TKFRAME_*_ANGLES keyword are the opposite from what is written in the above text. \begindata FRAME_TGO_ACS_NIR_NAD = -143111 FRAME_-143111_NAME = 'TGO_ACS_NIR_NAD' FRAME_-143111_CLASS = 4 FRAME_-143111_CLASS_ID = -143111 FRAME_-143111_CENTER = -143 TKFRAME_-143111_RELATIVE = 'TGO_ACS_NIR_BASE' TKFRAME_-143111_SPEC = 'ANGLES' TKFRAME_-143111_UNITS = 'DEGREES' TKFRAME_-143111_AXES = ( 3, 2, 1 ) TKFRAME_-143111_ANGLES = ( 0.0, 0.0, 0.0 ) FRAME_TGO_ACS_NIR_OCC = -143112 FRAME_-143112_NAME = 'TGO_ACS_NIR_OCC' FRAME_-143112_CLASS = 4 FRAME_-143112_CLASS_ID = -143112 FRAME_-143112_CENTER = -143 TKFRAME_-143112_RELATIVE = 'TGO_ACS_NIR_BASE' TKFRAME_-143112_SPEC = 'ANGLES' TKFRAME_-143112_UNITS = 'DEGREES' TKFRAME_-143112_AXES = ( 3, 2, 1 ) TKFRAME_-143112_ANGLES = ( 0.0, 0.0, +67.07 ) FRAME_TGO_ACS_TIRVIM_NAD = -143132 FRAME_-143132_NAME = 'TGO_ACS_TIRVIM_NAD' FRAME_-143132_CLASS = 4 FRAME_-143132_CLASS_ID = -143132 FRAME_-143132_CENTER = -143 TKFRAME_-143132_RELATIVE = 'TGO_ACS_TIRVIM_BASE' TKFRAME_-143132_SPEC = 'ANGLES' TKFRAME_-143132_UNITS = 'DEGREES' TKFRAME_-143132_AXES = ( 3, 2, 1 ) TKFRAME_-143132_ANGLES = ( 0.0, 0.0, 0.0 ) FRAME_TGO_ACS_TIRVIM_OCC = -143133 FRAME_-143133_NAME = 'TGO_ACS_TIRVIM_OCC' FRAME_-143133_CLASS = 4 FRAME_-143133_CLASS_ID = -143133 FRAME_-143133_CENTER = -143 TKFRAME_-143133_RELATIVE = 'TGO_ACS_TIRVIM_BASE' TKFRAME_-143133_SPEC = 'ANGLES' TKFRAME_-143133_UNITS = 'DEGREES' TKFRAME_-143133_AXES = ( 3, 2, 1 ) TKFRAME_-143133_ANGLES = ( 0.0, 0.0, +67.07 ) FRAME_TGO_ACS_TIRVIM_SPC = -143131 FRAME_-143131_NAME = 'TGO_ACS_TIRVIM_SPC' FRAME_-143131_CLASS = 4 FRAME_-143131_CLASS_ID = -143131 FRAME_-143131_CENTER = -143 TKFRAME_-143131_RELATIVE = 'TGO_ACS_TIRVIM_BASE' TKFRAME_-143131_SPEC = 'ANGLES' TKFRAME_-143131_UNITS = 'DEGREES' TKFRAME_-143131_AXES = ( 3, 2, 1 ) TKFRAME_-143131_ANGLES = ( 0.0, 0.0, -90.00 ) \begintext ACS High Resolution Middle Infrared Spectrometer (MIR) frame: ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The ACS High Resolution Middle Infrared Spectrometer (MIR) is rigidly mounted on the spacecraft science deck. Therefore, the frame associated with it -- the ACS MIR frame, TGO_ACS_MIR -- is specified as a fixed offset frame with its orientation given relative to the JUICE_SPACECRAFT frame. The ACS MIR spectrometer operates in occultation mode only and its boresight is pointing +67.07 deg from the spacecraft -Y axis to the -X in the XY plane. Therefore, the ACS MIR frame is defined as follows (from [9]): - +Z axis is parallel to the spectrometer boresight, pointing at +67.07 degrees from the spacecraft -Y axis towards the -X axis in the XY plane; - +X axis is parallel to the spectrometer detector array's lines, and it is nominally co-aligned with the spacecraft +Z axis; - +Y axis completes the right handed-frame - the origin of this frame is located at geometrical centre of the first folding mirror at the entry optics of the spectrometer. This diagrams illustrates the nominal TGO_ACS_MIR frame with respect to the spacecraft frame. +Z s/c side view ---------------- 'Nadir' Towards Mars ^ +Xmir ^ | +Zmir \ |_~67deg .^ \ | \ .' Science Deck ._ACS\| .'________. | o | ============o======= SA+Z | | | | | ._________________. <-------o o /| +Xsc |+Zsc \ / |\ | o | : | \ |/ v \| +Ysc HGA +Zsc and +Ymir are out of the page. Nominally, a rotation of 90 degrees about +X spacecraft axis and then a rotation of -67.07 degrees about the +Y spacecraft axis are required to align the TGO_SPACECRAFT to the TGO_ACS_MIR frames. Since the SPICE frames subsystem calls for specifying the reverse transformation--going from the instrument or structure frame to the base frame--as compared to the description given above, the order of rotations assigned to the TKFRAME_*_AXES keyword is also reversed compared to the above text, and the signs associated with the rotation angles assigned to the TKFRAME_*_ANGLES keyword are the opposite from what is written in the above text. \begindata FRAME_TGO_ACS_MIR = -143120 FRAME_-143120_NAME = 'TGO_ACS_MIR' FRAME_-143120_CLASS = 4 FRAME_-143120_CLASS_ID = -143120 FRAME_-143120_CENTER = -143 TKFRAME_-143120_RELATIVE = 'TGO_SPACECRAFT' TKFRAME_-143120_SPEC = 'ANGLES' TKFRAME_-143120_UNITS = 'DEGREES' TKFRAME_-143120_AXES = ( 3, 1, 2 ) TKFRAME_-143120_ANGLES = ( 0.0, -90.0, 67.07 ) \begintext CaSSIS Frames ------------------------------------------------------------------------ This section of the file contains the definitions of the Colour and Stereo Surface Imaging System (CaSSIS) instrument frames. CaSSIS Frame Tree ~~~~~~~~~~~~~~~~~ The diagram below shows the CaSSIS frame hierarchy. "J2000" INERTIAL +-----------------------------------------------------+ | | | |<-pck | |<-pck | | | V | V "IAU_MARS" | "IAU_EARTH" MARS BODY-FIXED |<-ck EARTH BODY-FIXED --------------- | ---------------- V "TGO_SPACECRAFT" ---------------- | |<-fixed | V "TGO_CASSIS_CRU" ---------------- | |<-ck | V "TGO_CASSIS_TEL" ---------------- | |<-fixed | "TGO_CASSIS_FSA" ---------------- CaSSIS Camera Rotation Unit frame ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The CaSSIS Camera Rotation Unit (CRU) is rigidly mounted on the spacecraft science deck. Therefore, the frame associated with it -- the CaSSIS CRU frame, TGO_CASSIS_CRU -- is specified as a fixed offset frame relative with its orientation given relative to the JUICE_SPACECRAFT frame. The CaSSIS CRU frame is defined by the camera rotation unit design and its mounting on the spacecraft as follows (from [5]): - +Y axis is along the nominal CaSSIS CRU rotation axis, and it is nominally co-aligned with the spacecraft -Y axis - +Z axis is co-aligned with the +Z spacecraft axis; - +X axis completes the right-handed frame; - the origin of the frame is located at the center of the CaSSIS reference hole (RH) at the instrument's interface plane, i.e. the unit mounting plane to the spacecraft. Any misalignment between the nominal and actual CaSSIS CRU rotation axis measured pre-launch or during in-flight calibration should be incorporated into the definition of this frame. These diagrams illustrate the nominal TGO_CASSIS_CRU frame with respect to the spacecraft frame. -X s/c side (HGA side) view: ---------------------------- ^ | toward Mars | ^ +Ycru | Science deck | .____________|. .__ _______________. | <--------o| .______________ ___. | \ \ \ | +Zcru +Xcru / \ \ | | / / \ | | / / / | | \ \ `. | | .' \ \ | | / / | o| |o | / / | | \ \ .' | | `. \ \ | | / / / | | \ / / | .__\ \_______________/ | +Xsc | \_______________\ \__. +Z Solar Array <--------x______. -Z Solar Array +Zsc .__|__. .' | `. / | \ . `. v +Ysc . +Xsc is into | `o' | the page and +Xcru . | . is out of the page \ | / `. .' HGA ` --- ' +Z CaSSIS Rotation Unit side view (with motor in "zero" position): ------------------------------------------------------------------ ^ +Xsc | | | <-------o .--. . +Ysc +Zsc |. | . ' / | | ______________ . ' / /---. .-| ___ ____ ' \ , /' | | | / \ / '. '.\ / / | | | || || ' ' .' .-----. | | | || || '. '. /___, ,| | | || || '. '. / /+Zcru |= | | \___/ \_____________/ '. +Ycru / \ | o---------------------------------------------> / '| | | |.| / | | rotation axis | | | / | | | '-'_._____| |_______' '________' | | / | | | | | .--- .------. '-' / '--|-| | | , -- . '. \ \_.-. / | | | | | '. '. \ | | /________________|_| '-'_ | '. . | | | || |.-|.| \ \______________. | | || || ||| \ .-------------------------'-' .-----''-------------''-|''--------. \| | | | '-----------------------|----------' | v +Xcru +Zsc and +Zcru are out of the page Nominally, a single rotation of 180 degrees about +Z axis is required to co-align the TGO_CASSIS_CRU and the TGO_SPACECRAFT frames. Since the SPICE frames subsystem calls for specifying the reverse transformation--going from the instrument or structure frame to the base frame--as compared to the description given above, the order of rotations assigned to the TKFRAME_*_AXES keyword is also reversed compared to the above text, and the signs associated with the rotation angles assigned to the TKFRAME_*_ANGLES keyword are the opposite from what is written in the above text. \begindata FRAME_TGO_CASSIS_CRU = -143400 FRAME_-143400_NAME = 'TGO_CASSIS_CRU' FRAME_-143400_CLASS = 4 FRAME_-143400_CLASS_ID = -143400 FRAME_-143400_CENTER = -143 TKFRAME_-143400_RELATIVE = 'TGO_SPACECRAFT' TKFRAME_-143400_SPEC = 'ANGLES' TKFRAME_-143400_UNITS = 'DEGREES' TKFRAME_-143400_AXES = ( 1, 2, 3 ) TKFRAME_-143400_ANGLES = ( 0.0, 0.0, -180.0 ) \begintext CaSSIS Telescope frame ~~~~~~~~~~~~~~~~~~~~~~ The CaSSIS telescope rotates counterclockwise around the +Y CaSSIS Camera Rotation Unit by an angle commanded from ground which ranges from 0 degrees in the homing position to 360.0 degrees at the end of the range. The CaSSIS Telescope frame is defined by the camera rotation unit design as follows (from [5]): - +Y axis is along the nominal CaSSIS CRU rotation axis, and it is 'zero' position is co-aligned with the TGO_CASSIS_CRU +Y axis - +Z axis is co-aligned with the TGO_CASSIS_CRU +Z axis, when the motor is in its 'zero' position; - +X axis completes the right-handed frame; - the origin of the frame is located at the focal point of the CaSSIS telescope. This diagram illustrates the TGO_CASSIS_TEL frame with respect to the TGO_CASSIS_CRU frame for different motor rotations. +Y CaSSIS Camera Rotation Unit view: ------------------------------------ ^ +Xtel ^ +Xcru 0 deg | | position | | ....|.... | .' | `. | +Zcru .' | `. o---------> ' | ' +Ycru . | . . | . 90 deg ---- . o--------------> +Ztel position . +Ytel . . . .-'. .'-. ' . . ' 120 deg `. .' 240 deg position ` ......... ' position | | 180 deg position +Xsc ^ | | +Ytel and +Ycru are into | the page; +Ysc is out of | the page. <--------x +Zsc +Ysc For an arbitrary scanner angle, the TGO_CASSIS_TEL frame is rotated by this angle about the +Y axis with respect to the TGO_CASSIS_CRU frame. This set of keywords define the CaSSIS Telescope frame: \begindata FRAME_TGO_CASSIS_TEL = -143410 FRAME_-143410_NAME = 'TGO_CASSIS_TEL' FRAME_-143410_CLASS = 3 FRAME_-143410_CLASS_ID = -143410 FRAME_-143410_CENTER = -143 CK_-143410_SCLK = -143 CK_-143410_SPK = -143 \begintext \begintext CaSSIS Filter Strip Assembly (FSA) frame: ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The CaSSIS Camera Rotation Unit is designed to support quasi-simultaneous stereo imaging by aligning the image columns to the orbital track (see [6]). Above the detector surface, a filter strip is placed in order providing images in 4 different wavelength bands. The CaSSIS Filter Strip Assembly -- TGO_CASSIS_FSA frame is defined based on the telescope pointing axis and the detector surface orientation as follows: - +Z axis points along the telescope optical boresight; - +X axis is aligned to the detector rows; and it is nominally aligned to the +Ztel axis. - +Y axis is aligned to the detector columns; - the origin of the frame is located at the focal point of the CaSSIS telescope. The CaSSIS telescope optical boresight nominally points 10 degrees off from the CaSSIS rotation axis -- TGO_CASSIS_TEL +Y axis, towards the +Z TGO_CASSIS_TEL axis. This diagram illustrates the TGO_CASSIS_FSA frame with respect to the TGO_CASSIS_TEL frame. +Z CaSSIS Rotation Unit side view: ---------------------------------- ^ +Ytel (rotation axis) ^ | towards Mars \ | +Zfsa \ | .---------. \ .----|-. .---------| .> +Ysfa \ '----|-'.' .-. | .' .. \ / | .' | .' \ `. \ .. |-. .' .'.'| \ `. / \/ | | | | .'.' | \ `/ /\ | | | | .'.' . | \ / / \| | | |.'.' .' | | \/ / \ | | .' .' | | / / |\ |.'.' | | | | | | \|.' . | | | | | | o +Xfsa | | | | | |' | | | | | \___.' | | | | | | ____ | | | | | | / \ | | | | | | | | |----' '-----' '__ | | | |---. .' +Ztel and +Xfsa | | | | | .' are out of the page | | | | |.________' | \____/ |---'|'------' '____________|____' '-----------|---' +Xtel o--------------------------> +Ztel Nominally, the off-pointing from the CaSSIS Filter Strip Assembly boresight and the CaSSIS Telescope rotation axis is 10 degrees towards the -X CaSSIS Telescope axis. During the geometrical measurements performed before the integration on the spacecraft, the angle between the rotation axis and the instrument optical boresight at 5 different positions (see p.34 of [6]) was: alpha = 9.89 +/- 0.1 degrees Therefore, in order to transform the CaSSIS Telescope frame into the CaSSIS Filter Strip Assembly frame, first an initial rotation of -90 degrees about the +Y axis is required, followed by a -80.02 degrees rotation about the resulting +X axis. Since the SPICE frames subsystem calls for specifying the reverse transformation--going from the instrument or structure frame to the base frame--as compared to the description given above, the order of rotations assigned to the TKFRAME_*_AXES keyword is also reversed compared to the above text, and the signs associated with the rotation angles assigned to the TKFRAME_*_ANGLES keyword are the opposite from what is written in the above text. \begindata FRAME_TGO_CASSIS_FSA = -143420 FRAME_-143420_NAME = 'TGO_CASSIS_FSA' FRAME_-143420_CLASS = 4 FRAME_-143420_CLASS_ID = -143420 FRAME_-143420_CENTER = -143 TKFRAME_-143420_RELATIVE = 'TGO_CASSIS_TEL' TKFRAME_-143420_SPEC = 'ANGLES' TKFRAME_-143420_UNITS = 'DEGREES' TKFRAME_-143420_AXES = ( 3, 2, 1 ) TKFRAME_-143420_ANGLES = ( 0.0, 90.00, 80.02 ) \begintext FREND Frames ------------------------------------------------------------------------ This section of the file contains the definitions of the Fine-Resolution Epithermal Neutron Detector (FREND) instrument frames. FREND Frame Tree ~~~~~~~~~~~~~~~~ The diagram below shows the FREND frame hierarchy. "J2000" INERTIAL +-----------------------------------------------------+ | | | |<-pck | |<-pck | | | V | V "IAU_MARS" | "IAU_EARTH" MARS BODY-FIXED |<-ck EARTH BODY-FIXED --------------- | ---------------- V "TGO_SPACECRAFT" ---------------- | |<-fixed | V "TGO_FREND" ----------- FREND base frame ~~~~~~~~~~~~~~~~ The Fine-Resolution Epithermal Neutron Detector (FREND) is rigidly mounted on the spacecraft science deck. The base frame -- TGO_FREND, associated to it, maps the TGO spacecraft reference axis defined in the mechanical drawings and it is specified as a fixed-offset frame with its orientation aligned to the TGO_SPACECRAFT frame in order to simplify the science operations and commanding of the instrument, as requested by the FREND Instrument Team (see [8]). The FREND base frame is defined by the detector design and its mounting on the spacecraft as follows (from [8]): - -Y axis is along the nominal FREND 3He counters and stilbene-based scintillator boresights; and it is nominally co-aligned with the spacecraft -Y axis; - +Z axis is nominally co-aligned with the spacecraft +Z axis; - +X axis completes the right-handed frame; - the origin of the frame is located at the geometrical center of the FREND stylbene scintillator detector. These diagrams illustrate the TGO_FREND frame with respect to the TGO_SPACECRAFT frame: -X s/c side (HGA side) view: ---------------------------- ^ | toward Mars | Science deck +Zfrend ._____________. .__ _______________<-------x | .______________ ___. | \ \ \ | | +Xfrend | / \ \ | | / / \ | | | / / / | | \ \ `. | | | .' \ \ | | / / | o| v |o | / / | | \ \ .' | +Yfrend | `. \ \ | | / / / | | \ / / | .__\ \_______________/ | +Xsc | \_______________\ \__. +Z Solar Array <--------x______. -Z Solar Array +Zsc .__|__. .' | `. / | \ . `. v +Ysc . +Xsc and +Xfrend | `o' | into the page . | . \ | / `. .' HGA ` --- ' -Y FREND side (spacecraft science deck) view: --------------------------------------------- +Ysc .-----------. X---------> | Dosimeter | | +Zsc | | | .---------------------------------------------. | | _____________________________ | | +Xsc | .' '. | v | .' . --- . . --- . '. | | / / \ / \ \ | | . . . . . . | | | | | | | | | | | . . . . | | | | \ / \ / | | | | . ___ . . - . . ___ . | | | | / \ +Zfrend | | | | +Yfrend x---------> | | | | \ | / | | | | . --- . . | . . --- . | | | | / \ | / \ | | | | . . | . . | | | | | | v | | | | | . . . +Xfrend . . | | \ \ / \ / / | | . . ___ . . ___ . . | | '. .' | | '---------------------------' | '---------------------------------------------' +Ysc and +Yfrend are into the page. Nominally, the TGO_FREND and the TGO_SPACECRAFT frames are co-aligned. Since the SPICE frames subsystem calls for specifying the reverse transformation--going from the instrument or structure frame to the base frame--as compared to the description given above, the order of rotations assigned to the TKFRAME_*_AXES keyword is also reversed compared to the above text, and the signs associated with the rotation angles assigned to the TKFRAME_*_ANGLES keyword are the opposite from what is written in the above text. \begindata FRAME_TGO_FREND = -143200 FRAME_-143200_NAME = 'TGO_FREND' FRAME_-143200_CLASS = 4 FRAME_-143200_CLASS_ID = -143200 FRAME_-143200_CENTER = -143 TKFRAME_-143200_RELATIVE = 'TGO_SPACECRAFT' TKFRAME_-143200_SPEC = 'ANGLES' TKFRAME_-143200_UNITS = 'DEGREES' TKFRAME_-143200_AXES = ( 1, 2, 3 ) TKFRAME_-143200_ANGLES = ( 0.0, 0.0, 0.0 ) \begintext NOMAD Frames ------------------------------------------------------------------------ This section of the file contains the definitions of the Nadir and Occultation for MArs Discovery (NOMAD) instrument frames. NOMAD Frame Tree ~~~~~~~~~~~~~~ The diagram below shows the NOMAD frame hierarchy. "J2000" INERTIAL +-----------------------------------------------------+ | | | |<-pck | |<-pck | | | V | V "IAU_MARS" | "IAU_EARTH" MARS BODY-FIXED |<-ck EARTH BODY-FIXED --------------- | ---------------- V "TGO_SPACECRAFT" +---------------------------+ | | | |<-fixed |<-fixed | | | | | V | | "TGO_NOMAD_SO" | | -------------- | v | "TGO_NOMAD_LNO_BASE" | +------------------------+ | | | | | |<-fixed |<-ck |<-fixed | | | | | V | V | "TGO_NOMAD_LNO_NAD" | "TGO_NOMAD_LNO_OCC" | ------------------- | ------------------- | | | v |<-fixed "TGO_NOMAD_LNO_SCAN" | -------------------- v | "TGO_NOMAD_UVIS_BASE" |<-fixed +-----------------------+ | | | v | | "TGO_NOMAD_LNO" |<-fixed |<-fixed --------------- | | v v "TGO_NOMAD_UVIS_NAD" "TGO_NOMAD_UVIS_OCC" -------------------- -------------------- NOMAD LNO Base and UVIS Base Frames ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The NOMAD Limb Nadir and Occultation (LNO) spectrometer and the Ultraviolet and Visible Spectrometer (UVIS) are rigidly mounted on the spacecraft science deck. Therefore, the base frames associated with them -- the NOMAD LNO Base frame, TGO_NOMAD_LNO_BASE, and the NOMAD UVIS Base frame, TGO_NOMAD_UVIS_BASE -- are specified as a fixed offset frame with its orientation given relative to the JUICE_SPACECRAFT frame. Both, the NOMAD LNO Base frame and the NOMAD UVIS Base frame are defined as follows (from [10]): - +Y axis is along the nominal spectrometer scanning mirror rotation axis, and it is nominally co-aligned with the spacecraft +Z axis; - +Z axis is co-aligned with the -Y spacecraft axis and it is along the spectrometer boresight in "zero" scanning position; - +X axis completes the right-handed frame, and it is parallel to the detector array lines and the wide side of the slit; - the origin of this frame is located at the intersection of the spectrometer scanning mirror rotation axis and mirror central axis. These diagrams illustrate the nominal TGO_NOMAD_LNO_BASE and the TGO_NOMAD_UVIS_BASE frame with respect to the spacecraft frame. -X s/c side (HGA side) view: ---------------------------- ^ | toward Mars | | ^ +Z*base | Science deck | .___________|_. .__ _______________. | <-------x +X*base______________ ___. | \ \ \ | +Y*base '.__| / \ \ | | / / \ | | / / / | | \ \ `. | | .' \ \ | | / / | o| |o | / / | | \ \ .' | | `. \ \ | | / / / | | \ / / | .__\ \_______________/ | +Xsc | \_______________\ \__. +Z Solar Array <--------x______. -Z Solar Array +Zsc .__|__. .' | `. / | \ . `. v +Ysc . +Xsc and +X*base are | `o' | into the page. . | . \ | / `. .' HGA ` --- ' Note that ``*base'' indicates ``nomad_lno_base'' or ``nomad_uvis_base''. -Y s/c side (science deck side) view: ------------------------------------- _____ EDM / \ ^ +X*base | || .___________|_. |+Y*base | | | | <------o | +Zsc | '___+Z*base o==/ /==================o<| +Xsc ^ |>o==================/ /==o +Z Solar Array | | | -Z Solar Array | | | <-------x | +Zsc +Ysc | | | | | ._____________. HGA .' `. /___________\ `.|.' +Ysc is into the page; +Z*base is out of the page. Note that ``*base'' indicates ``nomad_lno_base'' or ``nomad_uvis_base''. Nominally, a single rotation of 90 degrees about +X spacecraft axis is required to align the TGO_SPACECRAFT to the TGO_NOMAD_LNO_BASE and TGO_NOMAD_UVIS_BASE frames. Since the SPICE frames subsystem calls for specifying the reverse transformation--going from the instrument or structure frame to the base frame--as compared to the description given above, the order of rotations assigned to the TKFRAME_*_AXES keyword is also reversed compared to the above text, and the signs associated with the rotation angles assigned to the TKFRAME_*_ANGLES keyword are the opposite from what is written in the above text. \begindata FRAME_TGO_NOMAD_LNO_BASE = -143300 FRAME_-143300_NAME = 'TGO_NOMAD_LNO_BASE' FRAME_-143300_CLASS = 4 FRAME_-143300_CLASS_ID = -143300 FRAME_-143300_CENTER = -143 TKFRAME_-143300_RELATIVE = 'TGO_SPACECRAFT' TKFRAME_-143300_SPEC = 'ANGLES' TKFRAME_-143300_UNITS = 'DEGREES' TKFRAME_-143300_AXES = ( 3, 2, 1 ) TKFRAME_-143300_ANGLES = ( 0.0, 0.0, -90.0 ) FRAME_TGO_NOMAD_UVIS_BASE = -143330 FRAME_-143330_NAME = 'TGO_NOMAD_UVIS_BASE' FRAME_-143330_CLASS = 4 FRAME_-143330_CLASS_ID = -143330 FRAME_-143330_CENTER = -143 TKFRAME_-143330_RELATIVE = 'TGO_SPACECRAFT' TKFRAME_-143330_SPEC = 'ANGLES' TKFRAME_-143330_UNITS = 'DEGREES' TKFRAME_-143330_AXES = ( 3, 2, 1 ) TKFRAME_-143330_ANGLES = ( 0.0, 0.0, -90.0 ) \begintext NOMAD LNO scanning mirror frame ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The NOMAD Limb Nadir and Occultation (LNO) spectrometer has a scanning mirror that provides the possibility of observation in both nadir and solar occultation modes. Since this scanning mirror rotates with respect to the LNO base, the TGO_NOMAD_LNO_SCAN frame is defined as a CK frame with its orientation provided in a CK file relative to the TGO_NOMAD_LNO_BASE frames. The NOMAD LNO scanning mirror frames -- TGO_NOMAD_LNO_SCAN -- is defined as (from [10]): - +Y axis is along the nominal spectrometer scanning mirror rotation axis, and it is nominally co-aligned with the spectrometer base +Y axis; - +Z axis is parallel to the scanning mirror boresight that defines the spectrometer boresight; in 'nadir' scanner position is co-aligned with the -Y spacecraft axis; - +X axis completes the right-handed frame; and it is parallel to the detector array lines and the wide side of the slit; - the origin of this frame is located at the intersection of the spectrometer scanning mirror rotation axis and mirror central axis. These diagrams illustrate the TGO_NOMAD_LNO_SCAN frame for scanner positions 'nadir' ( 0.0 degrees) and solar 'occultation' (+67.07 deg from the spacecraft -Y axis to the -X in the XY plane). Both diagrams are +Z s/c side view: Scanner in 'nadir' position Scanner in 'occultation' position --------------------------- --------------------------------- +Zbase +Zbase ^ +Zscan ^ | +Xscan ^ | +Zscan | Science \ |_~67deg .^ +Xscan | NOMAD Deck \ | \ .' Science Deck +Xbase. _____|___________. NOMAD_\| .'________. <-------o | <-------o | ============o======== +Xbase ==========o======== SA+Z | SA+Z | | | | | | | | | ._________________. ._________________. <-------o o /| <-------o o /| +Xsc |+Zsc \ / |\ +Xsc |+Zsc \ / |\ | o | : | o | : | \ |/ | \ |/ v \| v \| +Ysc HGA +Ysc HGA +Zsc, +Ybase, and +Yscan are out of the page; These sets of keywords define the NOMAD LNO scanning mirror frames: \begindata FRAME_TGO_NOMAD_LNO_SCAN = -143305 FRAME_-143305_NAME = 'TGO_NOMAD_LNO_SCAN' FRAME_-143305_CLASS = 3 FRAME_-143305_CLASS_ID = -143305 FRAME_-143305_CENTER = -143 CK_-143305_SCLK = -143 CK_-143305_SPK = -143 \begintext NOMAD LNO Detector Frame ~~~~~~~~~~~~~~~~~~~~~~~~~ Since the LNO detector receives radiation through the scanner its frame, TGO_NOMAD_LNO is defined to be nominally co-aligned with the LNO scanner frame TGO_NOMAD_LNO_SCAN. This frame is introduced to allow incorporating into the LNO frame chain any misalignment between the scanner boresight direction and the detector view directions. Currently no misalignment data are available, and, therefore, the set of keywords below makes these frames co-aligned with their reference. \begindata FRAME_TGO_NOMAD_LNO = -143310 FRAME_-143310_NAME = 'TGO_NOMAD_LNO' FRAME_-143310_CLASS = 4 FRAME_-143310_CLASS_ID = -143310 FRAME_-143310_CENTER = -143 TKFRAME_-143310_RELATIVE = 'TGO_NOMAD_LNO_SCAN' TKFRAME_-143310_SPEC = 'ANGLES' TKFRAME_-143310_UNITS = 'DEGREES' TKFRAME_-143310_AXES = ( 1, 2, 3 ) TKFRAME_-143310_ANGLES = ( 0.0, 0.0, 0.0 ) \begintext NOMAD LNO and UVIS nadir and occultation frames ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Because the NOMAD LNO and UVIS scanning mirrors can be rotated to only a limited number of positions for external observations -- 'nadir' and 'occultation' -- a fixed frame co-aligned with the scanning mirror frame in each of these positions is defined to allow computing mirror orientation without needing to use CK. Each of these 'fixed-mirror-position' frames is defined as a fixed offset frame with respect to the corresponding base frame for each of the spectrometers as follows (from [10]): - +Y axis is along the nominal spectrometer scanning mirror rotation axis, and it is nominally co-aligned with the spectrometer base +Y axis; - +Z axis is parallel to the scanning mirror boresight that defines the spectrometer boresight at a particular angle; - +X axis completes the right-handed frame; and it is parallel to the detector array lines and the wide side of the slit; - the origin of this frame is located at the intersection of the spectrometer scanning mirror rotation axis and mirror central axis. These diagram illustrates fixed mirror pointing directions co-aligned with the +Z axis of the corresponding 'fixed-mirro-position' frame: +Z s/c side view ---------------- +Z*base +Z*base ^ +Z*nad ^ | +X*occ ^ | +Z*occ | Science \ |_~67deg .^ +X*nad | NOMAD Deck \ | \ .' Science Deck +X*base _____|___________. NOMAD_\| .'________. <-------o | <-------o | ============o======== +X*base =========o======== SA+Z | SA+Z | | | | | | | | | ._________________. ._________________. <-------o o /| <-------o o /| +Xsc |+Zsc \ / |\ +Xsc |+Zsc \ / |\ | o | : | o | : | \ |/ | \ |/ v \| v \| +Ysc HGA +Ysc HGA +Zsc, +Y*base, +Y*nad and +Y*occ are out of the page; ``*base'' corresponds to ``nomad_lno_base'' or ``nomad_uvis_base''; ``*nad'' corresponds to ``nomad_lno_nad'' or ``nomad_uvis_nad''; and ``*occ'' corresponds to ``nomad_lno_occ'' or ``nomad_uvis_occ''. These 'fixed-mirror-position' frames are nominally rotated about the +X axis of the corresponding spectrometer base frames by the following angles: Frame name Rotation Angle, deg ---------------------- ------------------- TGO_NOMAD_LNO_NAD 0.00 TGO_NOMAD_LNO_OCC -67.07 TGO_NOMAD_UVIS_NAD 0.00 TGO_NOMAD_UVIS_OCC -67.07 Since the SPICE frames subsystem calls for specifying the reverse transformation--going from the instrument or structure frame to the base frame--as compared to the description given above, the order of rotations assigned to the TKFRAME_*_AXES keyword is also reversed compared to the above text, and the signs associated with the rotation angles assigned to the TKFRAME_*_ANGLES keyword are the opposite from what is written in the above text. \begindata FRAME_TGO_NOMAD_LNO_NAD = -143311 FRAME_-143311_NAME = 'TGO_NOMAD_LNO_NAD' FRAME_-143311_CLASS = 4 FRAME_-143311_CLASS_ID = -143311 FRAME_-143311_CENTER = -143 TKFRAME_-143311_RELATIVE = 'TGO_NOMAD_LNO_BASE' TKFRAME_-143311_SPEC = 'ANGLES' TKFRAME_-143311_UNITS = 'DEGREES' TKFRAME_-143311_AXES = ( 3, 2, 1 ) TKFRAME_-143311_ANGLES = ( 0.0, 0.0, 0.0 ) FRAME_TGO_NOMAD_LNO_OCC = -143312 FRAME_-143312_NAME = 'TGO_NOMAD_LNO_OCC' FRAME_-143312_CLASS = 4 FRAME_-143312_CLASS_ID = -143312 FRAME_-143312_CENTER = -143 TKFRAME_-143312_RELATIVE = 'TGO_NOMAD_LNO_BASE' TKFRAME_-143312_SPEC = 'ANGLES' TKFRAME_-143312_UNITS = 'DEGREES' TKFRAME_-143312_AXES = ( 3, 1, 2 ) TKFRAME_-143312_ANGLES = ( 0.0, 0.0, +67.07 ) FRAME_TGO_NOMAD_UVIS_NAD = -143331 FRAME_-143331_NAME = 'TGO_NOMAD_UVIS_NAD' FRAME_-143331_CLASS = 4 FRAME_-143331_CLASS_ID = -143331 FRAME_-143331_CENTER = -143 TKFRAME_-143331_RELATIVE = 'TGO_NOMAD_UVIS_BASE' TKFRAME_-143331_SPEC = 'ANGLES' TKFRAME_-143331_UNITS = 'DEGREES' TKFRAME_-143331_AXES = ( 3, 2, 1 ) TKFRAME_-143331_ANGLES = ( 0.0, 0.0, 0.0 ) FRAME_TGO_NOMAD_UVIS_OCC = -143332 FRAME_-143332_NAME = 'TGO_NOMAD_UVIS_OCC' FRAME_-143332_CLASS = 4 FRAME_-143332_CLASS_ID = -143332 FRAME_-143332_CENTER = -143 TKFRAME_-143332_RELATIVE = 'TGO_NOMAD_UVIS_BASE' TKFRAME_-143332_SPEC = 'ANGLES' TKFRAME_-143332_UNITS = 'DEGREES' TKFRAME_-143332_AXES = ( 3, 1, 2 ) TKFRAME_-143332_ANGLES = ( 0.0, 0.0, +67.07 ) \begintext NOMAD Solar Occultation (SO) spectrometer frame: ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The NOMAD Solar Occultation (SO) spectrometer is rigidly mounted on the spacecraft science deck. Therefore, the frame associated with it -- the NOMAD SO frame, TGO_NOMAD_SO -- is specified as a fixed offset frame with its orientation given relative to the JUICE_SPACECRAFT frame. The NOMAD SO spectrometer operates in occultation mode only and its boresight is pointing +67.07 deg from the spacecraft -Y axis to the -X in the XY plane. Therefore, the NOMAD SO frame is defined as follows (from [10]): - +Z axis is parallel to the spectrometer boresight, pointing at +67.07 degrees from the spacecraft -Y axis towards the -X axis in the XY plane; - +X axis is parallel to the spectrometer detector array's lines, and it is nominally co-aligned with the spacecraft +X axis; - +Y axis completes the right handed-frame - the origin of this frame is located at geometrical centre of the first folding mirror at the entry optics of the spectrometer. This diagrams illustrates the nominal TGO_NOMAD_SO frame with respect to the spacecraft frame. +Z s/c side view ---------------- 'Nadir' Towards Mars ^ +Xso ^ | +Zso \ |_~67deg .^ \ | \ .' Science Deck NOMAD\| .'________. | o | ============o======= SA+Z | | | | | ._________________. <-------o o /| +Xsc |+Zsc \ / |\ | o | : | \ |/ v \| +Ysc HGA +Zsc and +Ymir are out of the page. Nominally, a rotation of 90 degrees about +X spacecraft axis and then a rotation of -67.07 degrees about the +Y spacecraft axis are required to align the TGO_SPACECRAFT to the TGO_NOMAD_SO frames. Since the SPICE frames subsystem calls for specifying the reverse transformation--going from the instrument or structure frame to the base frame--as compared to the description given above, the order of rotations assigned to the TKFRAME_*_AXES keyword is also reversed compared to the above text, and the signs associated with the rotation angles assigned to the TKFRAME_*_ANGLES keyword are the opposite from what is written in the above text. \begindata FRAME_TGO_NOMAD_SO = -143320 FRAME_-143320_NAME = 'TGO_NOMAD_SO' FRAME_-143320_CLASS = 4 FRAME_-143320_CLASS_ID = -143320 FRAME_-143320_CENTER = -143 TKFRAME_-143320_RELATIVE = 'TGO_SPACECRAFT' TKFRAME_-143320_SPEC = 'ANGLES' TKFRAME_-143320_UNITS = 'DEGREES' TKFRAME_-143320_AXES = ( 3, 1, 2 ) TKFRAME_-143320_ANGLES = ( 0.0, -90.0, 67.07 ) \begintext TGO NAIF ID Codes -- Definitions =============================================================================== This section contains name to NAIF ID mappings for the ExoMars-16 mission. Once the contents of this file is loaded into the KERNEL POOL, these mappings become available within SPICE, making it possible to use names instead of ID code in the high level SPICE routine calls. Name ID Synonyms --------------------- ------- ----------------------- Spacecraft: ----------- TGO -143 EXOMARS-ORBITER TGO_SPACECRAFT -143000 ACS: ---- TGO_ACS_NIR_NAD -143111 TGO_ACS_NIR_OCC -143112 TGO_ACS_MIR -143120 TGO_ACS_TIRVIM -143130 TGO_ACS_TIRVIM_SPC -143131 TGO_ACS_TIRVIM_NAD -143132 TGO_ACS_TIRVIM_OCC -143133 CaSSIS: ------- TGO_CASSIS -143400 TGO_CASSIS_PAN -143410 TGO_CASSIS_RED -143420 TGO_CASSIS_NIR -143430 TGO_CASSIS_BLU -143440 FREND: ------ TGO_FREND -143200 TGO_FREND_HE -143210 TGO_FREND_SC -143220 NOMAD: ------ TGO_NOMAD_LNO -143310 TGO_NOMAD_LNO_NAD -143311 TGO_NOMAD_LNO_OCC -143312 TGO_NOMAD_SO -143320 TGO_NOMAD_UVIS_NAD -143331 TGO_NOMAD_UVIS_OCC -143332 The mappings summarized in this table are implemented by the keywords below. \begindata NAIF_BODY_NAME += ( 'TGO' ) NAIF_BODY_CODE += ( -143 ) NAIF_BODY_NAME += ( 'EXOMARS-ORBITER' ) NAIF_BODY_CODE += ( -143 ) NAIF_BODY_NAME += ( 'TGO_SPACECRAFT' ) NAIF_BODY_CODE += ( -143000 ) NAIF_BODY_NAME += ( 'TGO_ACS_NIR_NAD' ) NAIF_BODY_CODE += ( -143111 ) NAIF_BODY_NAME += ( 'TGO_ACS_NIR_OCC' ) NAIF_BODY_CODE += ( -143112 ) NAIF_BODY_NAME += ( 'TGO_ACS_MIR' ) NAIF_BODY_CODE += ( -143120 ) NAIF_BODY_NAME += ( 'TGO_ACS_TIRVIM' ) NAIF_BODY_CODE += ( -143130 ) NAIF_BODY_NAME += ( 'TGO_ACS_TIRVIM_SPC' ) NAIF_BODY_CODE += ( -143131 ) NAIF_BODY_NAME += ( 'TGO_ACS_TIRVIM_NAD' ) NAIF_BODY_CODE += ( -143132 ) NAIF_BODY_NAME += ( 'TGO_ACS_TIRVIM_OCC' ) NAIF_BODY_CODE += ( -143133 ) NAIF_BODY_NAME += ( 'TGO_FREND' ) NAIF_BODY_CODE += ( -143200 ) NAIF_BODY_NAME += ( 'TGO_FREND_HE' ) NAIF_BODY_CODE += ( -143210 ) NAIF_BODY_NAME += ( 'TGO_FREND_SC' ) NAIF_BODY_CODE += ( -143220 ) NAIF_BODY_NAME += ( 'TGO_NOMAD_LNO' ) NAIF_BODY_CODE += ( -143310 ) NAIF_BODY_NAME += ( 'TGO_NOMAD_LNO_NAD' ) NAIF_BODY_CODE += ( -143311 ) NAIF_BODY_NAME += ( 'TGO_NOMAD_LNO_OCC' ) NAIF_BODY_CODE += ( -143312 ) NAIF_BODY_NAME += ( 'TGO_NOMAD_SO' ) NAIF_BODY_CODE += ( -143320 ) NAIF_BODY_NAME += ( 'TGO_NOMAD_UVIS_NAD' ) NAIF_BODY_CODE += ( -143331 ) NAIF_BODY_NAME += ( 'TGO_NOMAD_UVIS_OCC' ) NAIF_BODY_CODE += ( -143332 ) NAIF_BODY_NAME += ( 'TGO_CASSIS' ) NAIF_BODY_CODE += ( -143400 ) NAIF_BODY_NAME += ( 'TGO_CASSIS_PAN' ) NAIF_BODY_CODE += ( -143410 ) NAIF_BODY_NAME += ( 'TGO_CASSIS_RED' ) NAIF_BODY_CODE += ( -143420 ) NAIF_BODY_NAME += ( 'TGO_CASSIS_NIR' ) NAIF_BODY_CODE += ( -143430 ) NAIF_BODY_NAME += ( 'TGO_CASSIS_BLU' ) NAIF_BODY_CODE += ( -143440 ) \begintext