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- Cassini/Huygens Mission Overview

MISSION.CAT

PDS_VERSION_ID                    = PDS3
RECORD_TYPE                       = STREAM
LABEL_REVISION_NOTE               = "
          2003-02-20 CASSINI: conner  Revision 1;
          2003-03-06 PDS/RS:  simpson Revision 2;
          2003-03-18 CASSINI: conner  Revision 3;
          2003-03-20 PDS/RS:  simpson Revision 4;
          2003-03-21 CASSINI  conner  Revision 5;
          2003-03-24 CASSINI  conner  Revision 6;
          2003-04-21 CASSINI  conner  Revision 7;
          2003-06-23 CASSINI  conner  Revision 8
          2003-07-01 PDS/CN:  S.L. Adams, formatted for ingestion from WORD
                                          to ASCII of 'Revision 8' supplied
                                          by Diane Conner.
          2003-07-14 CASSINI  conner, corrected spelling errors.
          2003-09-22 CASSINI  conner, added Solar System target.
          2003-10-03 CASSINI  conner, removed extra spaces at beg of line.
          2003-10-16 CASSINI  conner, changed to SOLAR_SYSTEM."

OBJECT                            = MISSION
  MISSION_NAME                    = "CASSINI-HUYGENS"

  OBJECT                          = MISSION_INFORMATION
    MISSION_START_DATE            = 1997-10-15
    MISSION_STOP_DATE             = NULL
    MISSION_ALIAS_NAME            = { "CASSINI", "HUYGENS" }
    MISSION_DESC                  = "

The majority of the text in this file was extracted from the Cassini
Mission Plan Document, D. Seal, 2003. (JPLD-5564)

The Cassini spacecraft, including the Huygens Probe, was launched on 15
October 1997 using a Titan IV/B launch vehicle with Solid Rocket Motor
Upgrade (SRMU) strap-ons and a Centaur upper stage.  The spacecraft used a
6.7-year Venus-Venus-Earth-Jupiter Gravity Assist (VVEJGA) trajectory to
Saturn, during which cruise observations were conducted to check out,
calibrate, and maintain the instruments as well as to perform limited
science.  After Saturn Orbit Insertion (SOI) (1 July 2004), the Huygens
Probe separated and, on the third encounter with Titan, entered the
satellite's atmosphere to make in situ measurements during an approximately
150 minute descent (14 January 2005).  The Orbiter continued a tour of the
Saturn system until mid-2008 collecting data on the planet and its
satellites, rings, and environment.

The Cassini Orbiter (CO) was a three-axis stabilized spacecraft equipped
with one high gain antenna (HGA) and two low gain antennas (LGAs), three
Radioisotope Thermoelectric Generators (RTGs) for power, main engines,
attitude thrusters, and reaction wheels.  It carried twelve orbiter
instruments designed to carry out 27 diverse science investigations.  The
Huygens Probe (HP) was equipped with six instruments designed to study the
atmosphere and surface of Titan.  It entered the upper atmosphere protected

by a heat shield, then deployed parachutes to descend slowly to the surface
from an altitude of about 200 km.  The instruments, with acronym and
Principal Investigator (PI) or Team Leader (TL), are summarized below:

Instrument                              Acronym  PI/TL
-----------------------------------------------  ------------
Orbiter:
Cassini Plasma Spectrometer               CAPS   Young
Cosmic Dust Analyzer                      CDA    Srama
Composite Infrared Spectrometer           CIRS   Flasar
Ion and Neutral Mass Spectrometer         INMS   Waite
Imaging Science Subsystem                 ISS    Porco
Magnetometer                              MAG    Dougherty
Magnetospheric Imaging Instrument         MIMI   Krimigis
Cassini Radar                             RADAR  Elachi
Radio and Plasma Wave Science             RPWS   Gurnett
Radio Science Subsystem                   RSS    Kliore
Ultraviolet Imaging Spectrograph          UVIS   Esposito
Visible and Infrared Mapping Spectrometer VIMS   Brown

Probe:
Aerosol Collector and Pyrolyser           ACP    Israel
Descent Imager Spectral Radiometer        DISR   Tomasko
Doppler Wind Experiment                   DWE    Bird
Gas Chromatograph Mass Spectrometer       GCMS   Niemann
Huygens Atmospheric Structure Instrument  HASI   Fulchignoni
Surface Science Package                   SSP    Zarnecki

    Mission Phases
    ==============

LAUNCH 1997-10-15 to 1997-10-17
       1997-288   to 1997-290
------

Cassini successfully lifted-off from the Cape Canaveral Air Station complex
40 on 15 October 1997 at 08:55 UTC. The solid rocket motors burned from
liftoff to separation at 2 min 23 sec at an altitude of 68,300 m. Stage 1
ignition began at 2 min 11 sec at an altitude of 58,500 m, and Stage 2
ignition (and Stage 1 separation) occurred at 5 min 23 sec after liftoff at
167,300 m. During the first three minutes and 27 seconds of flight, the
payload fairing shrouded the spacecraft, protecting it from direct solar
illumination.

The Centaur upper stage separated from the launch vehicle at 9 min 13 sec
at 206,700 m. The first Centaur burn began at 9 min 13 sec and lasted
approximately two minutes. This burn placed the Cassini spacecraft into an
elliptical, 170 km by 445 km parking orbit with an inclination of about 30
degrees. After 17 minutes in the parking orbit, the Centaur fired again and
launched Cassini toward Venus en route to Saturn. The injection C3 was 16.6
km^2/s^2.

Immediately after separation from the Centaur (date?), the spacecraft's
Attitude and Articulation Control Subsystem (AACS) pointed the HGA toward
the Sun to achieve a thermally safe attitude in which the HGA served as an
umbrella for the remainder of the spacecraft. X-band uplink and downlink
was established through the LGAs, the Radio and Plasma Wave Science (RPWS)
Langmuir Probe was deployed, instrument replacement heaters and main engine
oxidizer valve heaters were turned on, and the Stellar Reference Unit
(SRU), Imaging Science Subsystem (ISS), and Visible and Infrared Mapping
Spectrometer (VIMS) decontaminations were started.

TCM 1  1997-10-18 to 1997-11-14
       1997-291   to 1997-318
-----

The Trajectory Correction Maneuver 1 (TCM 1) phase comprised four one-week
sequences. During most of the TCM 1 phase, the spacecraft was in a
relatively quiescent state with the HGA pointed toward the Sun. Telemetry
downlinked by the spacecraft was utilized to make an initial
characterization of the spacecraft and to assess whether its various
subsystems survived the launch. Deployment, decontamination, tank heating,
and AACS checkout activities were started.

Before the maneuver itself, the fuel and oxidizer tanks were heated in
order to avoid an irreversible overpressure in the propellant lines.  If
the tanks fully pressurized before the spacecraft passed through the peak
temperature regime, then (when the spacecraft did enter the maximum thermal
environment) the tank pressure would climb without there being a way to
bring it back down, possibly causing an overpressure.

TCM 1 was an Earth injection clean-up maneuver placed at 25 days after
launch. TCM 1 was executed using the main engine with a delta-V magnitude
of 2.8 m/s. The burn sequence included holding the spacecraft off-Sun after
burn completion to allow the spacecraft heating to be characterized in a
relatively benign environment.

INTERPLANETARY CRUISE     1997-11-14 to 1999-11-07
                          1997-318   to 1999-311
---------------------

The Interplanetary Cruise Phase extended from 14 November 1997 to 7
November 1999.  It consisted of three subphases:  Venus 1 Cruise,
Instrument Checkout 1, and Venus 2 - Earth Cruise. During most of this
phase, Cassini's proximity to the Sun constrained the spacecraft to remain
Sun-pointed, and communications were conducted using the Low Gain Antennas.
The downlink capability of the LGAs at large spacecraft-Earth ranges was
very limited.  Between 30 and 150 days after launch, for example, the
downlink data rate decreased from 948 to 20 bps.

Beginning on 28 December 1998, the spacecraft approached opposition and the
HGA could be pointed towards Earth for a period of 25 days while the Probe
equipment temperature remained within the required range. This provided a
high data rate window during which checkout activities could be
accomplished.

      VENUS 1 CRUISE      1997-11-14 to 1998-09-13
                          1997-318   to 1998-256
      --------------

The Venus 1 Cruise subphase started on 14 November 1997 and continued
through 13 September 1998. The subphase encompassed sequences C5 through C9
and included two TCMs, one planetary swingby, and three switches between
LGA1 and LGA2. Most of the period was dedicated to engineering and
instrument maintenance activities.

         VENUS 1 ENCOUNTER   1998-04-26
                             1998-116

The first Venus encounter occurred on 26 April 1998.  The spacecraft
approached Venus from a sunward direction, and closest approach occurred
just after the spacecraft entered the Sun's shadow for a period of about 15
minutes. At closest approach, the altitude was 284 km, with a velocity
relative to Venus of 11.8 km/s. The spacecraft was occulted from Earth for
about 2 hours. The Earth occultation zone started about 15 minutes after
the spacecraft left the Sun occultation zone. Accuracy for the Venus flyby
was assured by using two TCMs (Trajectory Correction Maneuvers), 60 and 20
days before closest approach, and a clean-up maneuver 20 days after the
flyby.

     INSTRUMENT CHECKOUT 1    1998-09-14 to 1999-03-14
                              1998-257   to 1999-073
     ---------------------

The Instrument Checkout 1 subphase (ICO-1) started on 14 September 1998,
continued through 14 March 1999, and consisted of sequences C10-C13. This
subphase was characterized by the opposition that occurred on 9 January
1999, which allowed use of the HGA for downlink since the Earth and Sun
were nearly aligned as seen from Cassini.

All instruments scheduled checkout activities within the 25 day period
centered on opposition. This was the first opportunity since launch to
exercise and check the status of most instruments outside of routine
maintenance. The 'Quiet Test', for example, allowed each instrument to
monitor other instruments as they turned on and off and provided valuable
insight into how to integrate science observations during the Saturn tour.

During instrument checkout activities, the spacecraft autonomously went
into a safe state. Accumulating star position errors from the slow turn
required to keep the Sun on the -x-axis triggered AACS fault protection.
Most of the instrument checkout activities were rescheduled after a 10 day
safing period. Those that were not completed were rescheduled for the ICO-2
subphase during Outer Cruise.

     VENUS 2 - EARTH CRUISE      1999-03-15 to 1999-11-07
                                 1999-074   to 1999-311
     ----------------------

The Venus 2 - Earth Cruise subphase started on 15 March 1999, 45 days prior
to the second Venus flyby, and continued through 7 November 1999, which was
82 days after the Earth flyby. The subphase encompassed sequences C13
through C16, and included seven scheduled TCMs, two planetary swingbys, and
25 science activities in addition to normal engineering activities. Science
activities included maintenance, calibration, checkout, and science
observations using all of the Cassini instruments except INMS and CIRS.

         VENUS 2 ENCOUNTER    1999-06-24
                              1999-175

TCM-7 was executed 37 days before the Venus 2 Encounter. TCM-8 was
scheduled 21 days prior to Venus 2, but it was canceled. DSN (Deep Space
Network) coverage increased from one to three passes per day in support of
the flyby.

         EARTH ENCOUNTER      1999-08-18
                              1999-230

The Earth flyby occurred 55 days after the Venus 2 flyby. The spacecraft
approached the Earth from approximately the direction of the Sun. Closest
approach occurred right after the spacecraft entered the Sun occultation
zone. The occultation lasted approximately 30 minutes. The altitude at
closest approach was 1175 km, with an Earth-relative velocity of 19.0 km/s.
Trajectory correction maneuvers took place 43, 30, 15 and 6.5 days before
closest approach, and a clean-up maneuver was executed 13 days after the
flyby. Continuous DSN coverage began at the Venus 2 flyby and continued
through the Earth flyby. A week after the Earth Encounter, DSN coverage
dropped to one pass every two days.

Five instruments conducted observations as Cassini passed through the
Earth's magnetotail.

OUTER CRUISE  1999-11-08 to 2002-07-07
              1999-312   to 2002-188
------------

The Outer Cruise Phase consisted of four subphases: HGA Transition,
Instrument Checkout 2, Jupiter Cruise, and Quiet Cruise. The Outer Cruise
phase extended from 8 November 1999 (when the spacecraft reached a Sun
range of 2.7 AU) to 7 July 2002 (about two years before Saturn Orbit
Insertion). At 2.7 AU (1 February 2000), the HGA began continuous Earth-
pointing. The one planetary encounter in this phase was the flyby of
Jupiter in December 2000. Science at Jupiter was an opportunity to test
Saturn observation strategies with HGA data rates.

     HIGH GAIN ANTENNA TRANSITION  1999-11-08 to 2000-05-06
                                   1999-312   to 2000-127
     ----------------------------

This subphase included sequences C17 to C19, operation of ISS and VIMS
decontamination heaters, CDA dust calibrations, and Magnetosphere and
Plasma Science (MAPS) observations after the HGA was pointed toward Earth.

During the initial part of the subphase (C17 and part of C18),
telecommunications were via LGA1, and the spacecraft was at the farthest
distance from Earth before transitioning to the HGA for regular use.
Therefore, data rates were very low and activities were kept to a minimum.
C17 included standard maintenance and one Periodic Engineering Maintenance
(PEM) activity. Activities during the LGA1 portion of C18 included a
Periodic Instrument Maintenance (PIM); observations by ISS, VIMS, and UVIS
of the asteroid Masursky near closest approach (1,634,000 km); and ISS dark
frame calibration images directly following the Masursky observations.

The HGA was turned toward Earth for regular use on 1 February 2000, during
C18. Several activities took place during the rest of C18, using the
greater telemetry capabilities available with the HGA:  playback of the
Masursky data and ISS dark frames, a Probe checkout, a Huygens Probe S-band
Relay to Cassini Test, a Telemetry-Ranging Interference Test, MAG
calibrations, and a PEM. Regular MAPS observations by CAPS, CDA, MAG, MIMI,
and RPWS began within a few days after transitioning to the HGA.

The first 6 weeks of C19 were used for a checkout of new Flight Software.
The AACS version A7 software was uploaded near the beginning of this
period, and the first 2 weeks were devoted to AACS tests. The next 4 weeks
were originally scheduled for CDS tests of version V7.0. However, these
tests were delayed to late July and August of 2000 to allow time for
additional regression testing. During the AACS checkout period, MAPS
activity ceased. Several activities took place during the last 3 weeks of
C19: resumption of MAPS observations, three RSS activities (HGA pattern
calibration, HGA boresight calibration, and USO characterization), CIRS
Cooler Cover release, and a PIM.

A few days before the end of C19, the command loss timer setting was
increased slightly, to account for the 10-day period at the beginning of
C20 during which superior conjunction made commanding problematic.

     INSTRUMENT CHECKOUT 2   2000-05-06 to 2000-11-05
                             2000-127   to 2000-310
     ---------------------

The second instrument checkout subphase (ICO-2) was scheduled from 6 May
2000 to 5 November of 2000, after the Spacecraft Office had completed its
engineering checkout activities. ICO-2 included instrument checkout that
required reaction wheel stability and any instrument checkouts that were
not successfully completed during ICO-1. But the CDS Flight Software V7
uplink and checkout, which was delayed from March, was rescheduled to late
July through early September 2000, causing many ICO-2 activities to be
compressed into a shorter and more intense period. Some activities were
postponed until after the Jupiter observations were completed in 2001.

The subphase began with a superior conjunction which precluded early
science or engineering activities. MAPS instruments remained on; but data
return was not attempted during conjunction. Two TCMs were scheduled for
Jupiter targeting, in June and September.

Engineering activities included the continuous use of reaction wheels and,
beginning on 1 October 2000, dual Solid State Recorders (SSRs). There were
no scheduled instrument PIMs during ICO-2 since all instruments had other
activities that accomplished this function. Other engineering activities
included two Reaction Wheel Assembly (RWA) friction tests, two PEMs, and an
SRU calibration.

Science activities began with the MAPS instruments continuing from C19. New
flight software was loaded for eight instruments in late May, and a CDA
software update was done in September. New Quiet Tests, while operating on
reaction wheels, were done in July for most instruments. RSS Quiet Tests
were done in September, and RADAR related tests were done in late June. A
Probe checkout occurred in late July.

Spacecraft turns were done for RADAR observations of the Sun and Jupiter in
June and again in September. The star Alpha Piscis Austrinus (Fomalhaut)
was also observed in September by VIMS with ISS and UVIS doing ride-along
science. No other science turns were scheduled until October. On 1 October,
science began using a repeating 5-day template to gather Jupiter science.
This involved 11 turns in a 5 day period, including two downlinks. The
turns in the 5-day template involved 4 orientations:

     Orbiter Remote Science (ORS) boresights to Jupiter,
       Z axis parallel to ecliptic
     HGA to Sun, rolling about Z axis
     Probe to Sun, rotating about X axis
     HGA to Earth, Probe offset from Sun for CDA, not
        rotating, downlink orientation

     JUPITER CRUISE          2000-11-05 to 2001-04-30
                             2000-310   to 2001-120
     --------------

The Jupiter Cruise subphase extended from 6 November 2000 to 29 April 2001
and included sequences C23 to C25. However Jupiter remote sensing
observations actually began on 1 October 2000, in C22.

         JUPITER ENCOUNTER   2000-12-30
                             2000-365

The Jupiter flyby occurred on 30 December 2000 at an altitude of 9.7
million km. This gravity assist rotated the trajectory 12 deg and increased
the heliocentric velocity by 2 km/s. The Jupiter relative speed at closest
approach was 11.6 km/s. At closest approach, Jupiter filled the Narrow
Angle Camera (NAC) field of view. Extensive Jupiter science was performed
which required additional DSN support: up to two passes every five days,
and a maximum of one pass every 30 hours in the 10 days on either side of
closest approach. Science at Jupiter was an opportunity to test how to
build and execute viable Saturn sequences.

A problem with the RWAs occurred on 16 December 2000. Increased friction on
one of the wheels caused the spacecraft to switch autonomously to the
Reaction Control Subsystem (RCS) for attitude control. With the switch to
RCS, hydrazine usage increased. Two of four joint CAPS-Hubble Space
Telescope observations, a Jupiter North-South map, the Himalia 'flyby', and
a UVIS torus observation were all executed on RCS before the sequence was
terminated on 19 December 2000. MAPS data continued to be recorded at a
reduced rate. All other planned science activities were suspended.  After
tests, RWA operation was resumed for attitude control on 22 December, with
the wheels biased away from low RPM regions.  The sequence was restarted on
29 December.

     QUIET CRUISE            2001-04-30 to 2002-07-08
                             2001-120   to 2002-189
     ------------

Quiet Cruise was a 14 month subphase that started at the end of Jupiter
Cruise and ended two years before SOI. During this subphase, routine
maintenance, engineering, and navigation functions were carried out. One
Gravitational Wave Experiment (GWE) was conducted in December 2001, and one
Solar Conjunction Experiment (SCE) was conducted in June 2002.

SCIENCE CRUISE 2002-07-08 to 2004-06-10
               2002-189   to 2004-162
--------------

     SPACE SCIENCE     2002-07-08 to 2004-01-11
                       2002-189   to 2004-011

The Space Science subphase began on 8 July 2002 and ran through 11 January
2004. TCMs 18 and 19, two GWEs (December 2002 and December 2003) and one
SCE (June-July 2003) were conducted.

     APPROACH SCIENCE  2004-01-12 to 2004-06-10
                       2004-012   to 2004-162

The Approach Science subphase began six months before SOI and ended three
weeks before SOI, when the spacecraft was approaching Saturn at a rate of 5
kilometers per second. Most of the activities during the Approach Science
subphase were Saturn science observations and preparation for the Phoebe
flyby, SOI, and Tour operations.

The reaction wheels were turned on at the beginning of the subphase to
provide a more stable viewing platform. By this point, the imaging
instruments had begun atmospheric imaging, and making long-term atmospheric
movies. CIRS began long integrations of Saturn's disk. At SOI - 4 months,
Saturn filled one third of the NAC field of view and one half of the CIRS
Far Infrared (FIR) field of view.

The Saturn approach was made toward the morning terminator at a phase angle
of about 75 degrees; VIMS gathered data on the temperature difference
across the terminator. UVIS scans of the Saturn System began 3-4 months
before SOI. Fields, particles, and waves instruments collected solar wind
information and recorded Saturn emissions as the spacecraft neared the
planet. Science data gathered during this period was stored on the SSR and
transmitted back to Earth. Daily DSN tracking coverage began 90 days before
SOI.

The Phoebe approach TCM took place on 27 May 2004, 15 days before Phoebe
closest approach.


TOUR PRE-HUYGENS  2004-06-11 to 2004-12-24
                  2004-163   to 2004-359
----------------

The Tour Pre-Huygens Phase extended from the Phoebe Encounter through
Saturn Orbit Insertion to separation of the Huygens Probe from the Cassini
Orbiter.

     PHOEBE ENCOUNTER         2004-06-11
                              2004-163

The flyby of Phoebe occurred on 11 June 2004, 19 days before SOI.  At
closest approach (19:33 UTC) the spacecraft was 2000 km above the surface.

     SATURN ORBIT INSERTION   2004-07-01
                              2004-183

During Saturn Orbit Insertion (SOI) on 1 July 2004, the spacecraft made its
closest approach to the planet's surface during the entire mission at an
altitude of only 0.3 Saturn radii (18,000 km).  Due to this unique
opportunity, the approximately 95-minute SOI burn (633 m/s total delta-V),
required to place Cassini in orbit around Saturn, was executed earlier than
its optimal point centered around periapsis, and instead ended near
periapsis, allowing science observations immediately after burn completion.
The SOI maneuver placed the spacecraft in an initial orbit with a periapsis
radius of 1.3 Rs, a period of 148 days, and an inclination of 16.8 degrees.

After the burn, the spacecraft was turned to allow the ORS instruments to
view the Saturn inner rings that were not in shadow. After periapsis, the
trajectory just grazed the occultation zones behind the planet with the
Earth and Sun being occulted by Saturn.  After communication with Earth was
re-established, the spacecraft remained on Earth pointed for nine hours to
play back engineering and science data and to give ground personnel time to
evaluate the spacecraft status.

After SOI a pair of cleanup maneuvers was used to correct for errors in the
SOI burn. The first was immediately before superior conjunction, at SOI + 3
days, and the second was after conjunction at SOI + 16 days.

Probe checkouts were scheduled at SOI + 14 days, Probe Release Maneuver
(PRM) + 4 days, and ten days before separation.

The partial orbit between SOI and the first apoapsis was designated orbit
0.  The next three orbits were designated a, b, and c.

     TITAN A ENCOUNTER        2004-10-26
                              2004-300

     TITAN B ENCOUNTER        2004-12-13
                              2004-348


HUYGENS DESCENT  2004-12-24 to 2005-01-14
                 2004-359   to 2005-014
---------------

     HUYGENS PROBE SEPARATION 2004-12-24
                              2004-359

The probe was released from the Orbiter on 24 December 2004, 11 days after
the second Titan flyby (orbit b).  Two days after the Probe was released,
the Orbiter executed a deflection maneuver to place itself on the proper
trajectory for the third encounter.


     TITAN C HUYGENS          2005-01-14
                              2005-014

During the third flyby (orbit c), on 14 January 2005, the Huygens Probe
transmitted data to the orbiter for approximately 150 minutes during its
descent through the atmosphere to the surface.

Because the Orbiter was looking at Titan through most of the corresponding
Goldstone tracking pass, DSN support on this day was primarily through the
70-meter antennas at the Canberra and Madrid tracking complexes. While
approaching Titan, the Orbiter made its last downlink transmission (to the
Madrid station, DSS 63) before switching to Probe relay mode. The Orbiter
then turned nearly 180 degrees to point its HGA at the predicted Probe
impact point, and the Probe Support Avionics (PSA) were configured to
receive data from the Probe. Some Orbiter instruments were put into a low
power state to provide additional power for the PSA. The data from the
Probe were transmitted at S band in two separate data streams, and both
were recorded on each SSR. Following completion of the predicted descent
(maximum 150 minutes), the Orbiter listened for Probe signals for an
additional 30 minutes, in case they continued after landing.

When data collection from the Probe was completed, those data were write
protected on each SSR. The spacecraft then turned to view Titan with
optical remote sensing instruments until about one hour after closest
approach for a total observing window of TBD.

The Orbiter then turned the HGA towards Earth and began transmitting the
recorded Probe data to the Canberra 70-m antenna. The complete, four-fold
redundant set of Probe data was transmitted twice, and its receipt
verified, before the write protection on that portion of the SSR was lifted
by ground command. A second playback, including all of the Probe data and
the Orbiter instrument observations, was returned over the subsequent
Madrid 70-meter tracking pass, which was longer and at higher elevation
angles.

TOUR   2005-01-14 to 2008-06-30
       2005-014   to 2008-182
----

The Tour Phase of the mission began at completion of the Huygens Probe and
Orbiter-support playback and ended on 30 June 2008.  It included dozens of
satellite encounters and extended observations of Saturn, its rings, and
its environment of particles and fields.

     TOUR SEQUENCE BOUNDARIES

The table below shows spacecraft background sequences, orbit revolution,
start epoch (including day-of-year in a separate column), and the length of
the sequence.  For completeness, all 'S' sequences are listed even though
the first seven covered times before the Tour phase.  Each orbit about
Saturn was assigned a revolution identifier starting with a, b, and c, and
then numerically ascending from 3 to 74; these were not synchronous with
sequences, some of which covered only partial orbits.  Full orbits began
and ended at apoapsis; the partial orbit from SOI to the first apoapsis was
orbit 0.

               Sequence  Rev     Epoch (SCET)     DOY   Duration
                                                        In days
               --------  ---  -----------------   ---   --------
                  S1      -   2004-May-15 00:00   136      35
                  S2      0   2004-Jun-19 01:38   171      42
                  S3      0   2004-Jul-30 23:05   212      43
                  S4      a   2004-Sep-11 19:10   255      35
                  S5      a   2004-Oct-16 18:40   290      28
                  S6      a   2004-Nov-13 16:59   318      33
                  S7      b   2004-Dec-16 15:03   351      37
                  S8      c   2005-Jan-22 10:38   022      36
                  S9      3   2005-Feb-27 00:36   058      41
                  S10     6   2005-Apr-09 05:15   099      35
                  S11     8   2005-May-14 02:50   134      35
                  S12    10   2005-Jun-18 01:34   169      42
                  S13    12   2005-Jul-29 22:36   210      32
                  S14    14   2005-Aug-30 21:53   242      39
                  S15    16   2005-Oct-08 15:57   281      35
                  S16    17   2005-Nov-12 17:01   316      35
                  S17    19   2005-Dec-17 14:21   351      42
                  S18    20   2006-Jan-28 11:23   028      42
                  S19    22   2006-Mar-11 00:35   070      42
                  S20    23   2006-Apr-22 05:15   112      42
                  S21    24   2006-Jun-03 02:39   154      42
                  S22    26   2006-Jul-15 00:06   196      35
                  S23    27   2006-Aug-18 22:06   230      39
                  S24    29   2006-Sep-26 19:53   269      26
                  S25    31   2006-Oct-22 18:26   295      33
                  S26    33   2006-Nov-24 16:30   328      42
                  S27    36   2007-Jan-05 13:50   005      43
                  S28    39   2007-Feb-17 10:52   048      40
                  S29    41   2007-Mar-29 08:04   088      37
                  S30    44   2007-May-04 22:00   124      37
                  S31    46   2007-Jun-11 03:10   162      33
                  S32    48   2007-Jul-14 01:06   195      29
                  S33    49   2007-Aug-11 23:20   223      42
                  S34    50   2007-Sep-22 20:51   265      40
                  S35    51   2007-Nov-01 18:40   305      42
                  S36    54   2007-Dec-13 16:15   347      39
                  S37    56   2008-Jan-21 13:35   021      26
                  S38    59   2008-Feb-16 11:51   047      36
                  S39    62   2008-Mar-23 01:50   083      27
                  S40    65   2008-Apr-19 07:18   110      42
                  S41    70   2008-May-31 04:27   152      35

     SATELLITE ENCOUNTER SUMMARY

This table summarizes the Cassini Orbiter satellite encounters; for
completeness, all recognized encounters are included even though the first
eight preceded the Tour phase.  Rev identifies the orbit revolution as
defined above.  The three character ID for the encounter is in the second
column; an appended asterisk (*) denotes a non-targeted encounter.  The
target, date and time, and day-of-year are in the next three columns.
Altitude above the surface at closest approach, sense of the encounter
(whether on the inbound or outbound leg of an orbit), relative velocity at
closest approach, and phase angle at closest approach round out the
columns.



Rev   Name   Satellite  Epoch (SCET)        DOY   Alt   in/  Speed Phase
                                                  km    out  km/s   deg
----  -----  ---------  ----------------    ---   ---   ---  -----  ----
0     0PH    Phoebe     2004-Jun-11 19:33   163   1997  in    6.4   25
0     0MI*   Mimas      2004-Jul-01 00:30   183  76424  in   22.3   80
0     0TI*   Titan      2004-Jul-02 09:30   184 338958  out   8.3   67
a     aTI    Titan      2004-Oct-26 15:30   300   1200  in    6.1   91
b     bTI    Titan      2004-Dec-13 11:37   348   2358  in    6     98
b     bDI*   Dione      2004-Dec-15 02:11   350  81592  in    5.3   93
c     cIA*   Iapetus    2005-Jan-01 01:28   001  64907  in    2.1  106
c     cTI    Titan      2005-Jan-14 11:04   014  60000  in    5.4   93
3     3TI    Titan      2005-Feb-15 06:54   046    950  in    6    102
3     3EN*   Enceladus  2005-Feb-17 03:24   048   1179  out   6.6   98
4     4EN    Enceladus  2005-Mar-09 09:06   068    499  in    6.6   43
4     4TE*   Tethys     2005-Mar-09 11:42   068  82975  out   6.9   64
5     5EN*   Enceladus  2005-Mar-29 20:20   088  63785  in   10.1  134
5     5TI    Titan      2005-Mar-31 19:55   090   2523  out   5.9   65
6     6MI*   Mimas      2005-Apr-15 01:20   105  77233  out  13.6   94
6     6TI    Titan      2005-Apr-16 19:05   106    950  out   6.1  127
7     7TE*   Tethys     2005-May-02 21:04   122  64990  in   10    118
7     7TI*   Titan      2005-May-04 05:10   124 860004  out  10.2  153
8     8EN*   Enceladus  2005-May-21 07:19   141  92997  out   8.1   81
9     9TI*   Titan      2005-Jun-06 18:50   157 425973  in    5.8   82
10   10TI*   Titan      2005-Jun-22 12:27   173 920423  in    3.7   65
11   11EN    Enceladus  2005-Jul-14 19:57   195   1000  in    8.1   43
12   12MI*   Mimas      2005-Aug-02 03:52   214  45112  in    6.5   83
12   12TI*   Titan      2005-Aug-06 12:33   218 841452  out   3.8   62
13   13TI    Titan      2005-Aug-22 08:39   234   4015  out   5.8   42
14   14TI    Titan      2005-Sep-07 07:50   250    950  out   6.1   84
15   15TE*   Tethys     2005-Sep-24 01:29   267  33295  out   7.7   76
15   15TI*   Titan      2005-Sep-24 22:01   267 910272  out  10.7  148
15   15HY    Hyperion   2005-Sep-26 01:41   269    990  out   5.6   45
16   16TI*   Titan      2005-Oct-10 22:20   283 777198  in    9.7   65
16   16DI    Dione      2005-Oct-11 17:58   284    500  in    9     66
16   16EN*   Enceladus  2005-Oct-12 03:29   285  42635  out   6.6   75
17   17TI    Titan      2005-Oct-28 03:58   301   1446  in    5.9  105
18   18RH    Rhea       2005-Nov-26 22:35   330    500  in    7.3   87
19   19EN*   Enceladus  2005-Dec-24 20:23   358  97169  in    6.9  133
19   19TI    Titan      2005-Dec-26 18:54   360  10429  out   5.6   67
20   20TI    Titan      2006-Jan-15 11:36   015   2042  in    5.8  121
21   21TI    Titan      2006-Feb-27 08:20   058   1812  out   5.9   93
22   22TI    Titan      2006-Mar-18 23:58   077   1947  in    5.8  148
22   22RH*   Rhea       2006-Mar-21 07:01   080  85935  out   5.3  136
23   23TI    Titan      2006-Apr-30 20:53   120   1853  out   5.8  121
24   24TI    Titan      2006-May-20 12:13   140   1879  in    5.8  163
25   25TI    Titan      2006-Jul-02 09:12   183   1911  out   5.8  148
26   26TI    Titan      2006-Jul-22 00:25   203    950  in    6    105
27   27TI*   Titan      2006-Aug-18 17:48   230 339190  out   4.8  121
28   28TI    Titan      2006-Sep-07 20:12   250    950  in    6     45
28   28EN*   Enceladus  2006-Sep-09 20:00   252  39842  out  10.3  116
29   29TI    Titan      2006-Sep-23 18:52   266    950  in    6     90
30   30TI    Titan      2006-Oct-09 17:23   282    950  in    6     81
31   31TI    Titan      2006-Oct-25 15:51   298    950  in    6     25
32   32EN*   Enceladus  2006-Nov-09 01:48   313  94410  out  14.1   27
33   33DI*   Dione      2006-Nov-21 02:32   325  72293  out  12.3  144
33   33TI*   Titan      2006-Nov-25 13:57   329 930525  out   4.5  114
35   35TI    Titan      2006-Dec-12 11:35   346    950  in    6    124
36   36TI    Titan      2006-Dec-28 10:00   362   1500  in    5.9   62
37   37TI    Titan      2007-Jan-13 08:34   013    950  in    6     53
38   38TI    Titan      2007-Jan-29 07:12   029   2776  in    5.8   73
39   39TI    Titan      2007-Feb-22 03:10   053    953  out   6.3  161
40   40TI    Titan      2007-Mar-10 01:47   069    956  out   6.3  149
41   41TI    Titan      2007-Mar-26 00:21   085    953  out   6.3  144
42   42TI    Titan      2007-Apr-10 22:57   100    951  out   6.3  137
43   43TI    Titan      2007-Apr-26 21:32   116    951  out   6.3  130
44   44TI    Titan      2007-May-12 20:08   132    950  out   6.3  121
45   45TE*   Tethys     2007-May-26 20:57   146  97131  in   11.7   75
45   45TI    Titan      2007-May-28 18:51   148   2425  out   6.1  114
46   46TI    Titan      2007-Jun-13 17:46   164    950  out   6.3  107
47   47TE*   Tethys     2007-Jun-27 19:53   178  16166  in   10.1   90
47   47MI*   Mimas      2007-Jun-27 22:56   178  89730  in   16.2  110
47   47EN*   Enceladus  2007-Jun-28 01:15   179  90769  out   9.4   55
47   47TI    Titan      2007-Jun-29 17:05   180   1942  out   6.2   96
48   48TI    Titan      2007-Jul-19 00:39   200   1302  in    6.2   34
49   49TE*   Tethys     2007-Aug-29 11:21   241  48324  in    4.7  104
49   49RH*   Rhea       2007-Aug-30 01:26   242   5098  out   6.7   46
49   49TI    Titan      2007-Aug-31 06:34   243   3227  out   6.1   87
49   49IA    Iapetus    2007-Sep-10 12:33   253   1000  out   2.4   65
50   50DI*   Dione      2007-Sep-30 06:27   273  56523  in    5.6   47
50   50EN*   Enceladus  2007-Sep-30 10:53   273  88174  in    6.1   99
50   50TI    Titan      2007-Oct-02 04:48   275    950  out   6.3   67
51   51TI*   Titan      2007-Oct-22 00:47   295 455697  in    4.1   29
52   52RH*   Rhea       2007-Nov-16 19:52   320  78360  in    9.1  148
52   52TI    Titan      2007-Nov-19 00:52   323    950  out   6.3   51
53   53MI*   Mimas      2007-Dec-03 05:28   337  79272  in   14.8  138
53   53TI    Titan      2007-Dec-05 00:06   339   1300  out   6.3   70
54   54TI    Titan      2007-Dec-20 22:56   354    953  out   6.3   61
55   55TI    Titan      2008-Jan-05 21:26   005    949  out   6.3   37
57   57TI*   Titan      2008-Jan-22 21:06   022 860776  in    4.5   70
59   59TI    Titan      2008-Feb-22 17:39   053    959  out   6.4   30
61   61TI*   Titan      2008-Mar-10 19:15   070 922539  in    6.3  123
61   61EN    Enceladus  2008-Mar-12 19:05   072    995  in   14.6   56
62   62TI    Titan      2008-Mar-25 14:35   085    950  out   6.4   21
64   64MI*   Mimas      2008-Apr-11 09:38   102  95428  in   16.9  137
66   66TI*   Titan      2008-Apr-26 18:22   117 780589  in    5.5   94
67   67TI    Titan      2008-May-12 10:09   133    950  out   6.4   35
69   69TI    Titan      2008-May-28 08:33   149   1316  out   6.3   23
72   72TI*   Titan      2008-Jun-13 04:17   165 372240  in    5.9   89
74   74EN*   Enceladus  2008-Jun-30 08:07   182  99092  in   21.6   66


     END OF PRIME MISSION     2008-06-30
                              2008-182
     -------------------- "

    MISSION_OBJECTIVES_SUMMARY    = "

    CASSINI-HUYGENS MISSION OBJECTIVES
    ==================================

The Cassini-Huygens mission will accomplish a variety of scientific
objectives en route to and at Saturn [PD699-004].

While en route to Saturn, Cassini performed three sets of Gravitational
Wave Experiments (GWEs), each scheduled near opposition and each lasting
approximately 40 days.  During these observations, Cassini acted as a point
mass which would be perturbed by propagating gravitational waves resulting
from sudden destruction (or creation) of large masses in the general
direction of the spacecraft-to-Earth line.

While en route to Saturn, Cassini was also used in two Solar Conjunction
Experiments (SCEs), each lasting approximately 30 days.  The objectives of
these observations was to test general relativity and to improve our
understanding of the solar corona.

The general scientific objectives of the Cassini mission at Saturn were to
investigate the physical, chemical, and temporal characteristics of Titan
and of Saturn, its atmosphere, rings, icy satellites, and magnetosphere.
These are listed more specifically below:

Saturn (Planet) Objectives.
--------------------------

a) Determine temperature field, cloud properties, and composition of the
atmosphere of Saturn.

b) Measure the global wind field, including wave and eddy components;
observe synoptic cloud features and processes.

c) Infer the internal structure and rotation of the deep atmosphere.

d) Study the diurnal variations and magnetic control of the ionosphere of
Saturn.

e) Provide observational constraints (gas composition, isotope ratios, heat
flux, etc.) on scenarios for the formation and the evolution of Saturn.

f) Investigate the sources and the morphology of Saturn lightning, Saturn
Electrostatic Discharges (SED), and whistlers.


Titan Objectives.
----------------

a) Determine abundance of atmospheric constituents (including any noble
gases), establish isotope ratios for abundant elements, constrain scenarios
of formation and evolution of Titan and its atmosphere.

b) Observe vertical and horizontal distributions of trace gases, search for
more complex organic molecules, investigate energy sources for atmospheric
chemistry, and model the photochemistry of the stratosphere, study
formation and composition of aerosols.

c) Measure winds and global temperatures; investigate cloud physics,
general circulation, and seasonal effects in Titan's atmosphere; search for
lightning discharges.

d) Determine the physical state, topography, and composition of the
surface; infer the internal structure of the satellite.

e) Investigate the upper atmosphere, its ionization, and its role as a
source of neutral and ionized material for magnetosphere of Saturn.


Ring Objectives.
---------------

a) Study configuration of the rings and dynamical processes (gravitational,
viscous, erosional, and electromagnetic) responsible for ring structure.

b) Map composition and size distribution of ring material.

c) Investigate interrelation of rings and satellites, including embedded
satellites.

d) Determine dust and meteoroid distribution in the vicinity of the rings.

e) Study interactions between the rings and Saturn's magnetosphere,
ionosphere, and atmosphere.


Icy Satellite Objectives.
------------------------

a) Determine the general characteristics and geological histories of the
satellites.

b) Define the mechanisms of crustal and surface modifications, both
external and internal.

c) Investigate the compositions and distributions of surface materials,
particularly dark, organic rich materials and low melting point condensed
volatiles.

d) Constrain models of the satellites' bulk compositions and internal
structures.

e) Investigate interactions with the magnetosphere and ring systems and
possible gas injections into the magnetosphere.


Magnetosphere Objectives
------------------------

a) Determine the configuration of the nearly axially symmetric magnetic
field and its relation to the modulation of Saturn Kilometric Radiation
(SKR).

b) Determine current systems, composition, sources, and sinks of
magnetosphere charged particles.

c) Investigate wave-particle interactions and dynamics of the dayside
magnetosphere and the magnetotail of Saturn and their interactions with the
solar wind, the satellites, and the rings.

d) Study the effect of Titan's interaction with the solar wind and
magnetospheric plasma.

e) Investigate interactions of Titan's atmosphere and exosphere with the
surrounding plasma.   "

END_OBJECT                      = MISSION_INFORMATION

OBJECT                          = MISSION_HOST
  INSTRUMENT_HOST_ID            = "CO"

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "SATURN"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "TITAN"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "MASURSKY"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "FOMALHAUT"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "SPICA"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "EARTH"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "VENUS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "STAR"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "MOON"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "JUPITER"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "CALLISTO"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "EUROPA"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "GANYMEDE"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "IO"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "S RINGS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "ATLAS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "CALYPSO"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "DIONE"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "ENCELADUS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "EPIMETHEUS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "HELENE"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "HYPERION"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "IAPETUS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "JANUS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "MIMAS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "PAN"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "PANDORA"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "PHOEBE"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "PROMETHEUS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "RHEA"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "TELESTO"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "TETHYS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "SUN"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "IO PLASMA TORUS"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "SOLAR WIND"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "SOLAR_SYSTEM"
  END_OBJECT                    = MISSION_TARGET

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "DUST"
  END_OBJECT                    = MISSION_TARGET


END_OBJECT                      = MISSION_HOST

OBJECT                          = MISSION_HOST
  INSTRUMENT_HOST_ID            = "HP"

  OBJECT                        = MISSION_TARGET
    TARGET_NAME                 = "TITAN"
  END_OBJECT                    = MISSION_TARGET

END_OBJECT                      = MISSION_HOST

OBJECT                 = MISSION_REFERENCE_INFORMATION
  REFERENCE_KEY_ID       = "JPLD-5564"
END_OBJECT             = MISSION_REFERENCE_INFORMATION


END_OBJECT                        = MISSION

END




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