Cassini Significant Events for 10/26/06 - 11/01/06

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Cassini Significant Events
for 10/26/06 - 11/01/06

The most recent spacecraft telemetry was acquired Wednesday, November 1,
from the Goldstone tracking stations. The Cassini spacecraft is in an
excellent state of health and is operating normally. Information on the
present position and speed of the Cassini spacecraft may be found on the
"Present Position" web page located at
http://saturn.jpl.nasa.gov/operations/present-position.cfm .

Thursday, October 26 (DOY 299):

The Spacecraft Operations Office (SCO) Solid State Power Switch (SSPS) Trip
Working Group held their first meeting today. Options are being examined for
possibly increasing the system fault protection persistence filter values
for two radio frequency subsystem components. The group also plans to review
the instrument and subsystem SSPS trip fault protection settings. The
rationale for changing the persistence filters is to avoid spacecraft safing
and unnecessary hardware swaps for a simple SSPS trip in the deep space
transponder or traveling wave tube amplifier.

Friday, October 27 (DOY 300):

Members of the Attitude and Articulation Control Subsystem (AACS) have
developed an automated reaction wheel assembly drag spike tracking tool. The
tool will track spikes greater than 5 milli-Newton-meters (mNm) in
magnitude, and persisting longer than 60 seconds. It will exclude those
occurring immediately after zero crossings that occur as a result of
discontinuities near zero rpm, and those occurring when the spacecraft rate
is greater than 0.1 mrad/second due to uncertainties during acceleration and
deceleration phases.

A kick off meeting was held today for a Live Inertial Vector Propagator
(IVP)  update for DOY 311-315. The Navigation team provided a special orbit
determination (OD) solution based on the Titan 20 flyby for this event.
Analysis of this update by Science and Operations teams indicated that the
update was necessary. Members of the RADAR team also reported that based on
the new OD, an updated Enceladus-Rev 32 instrument expanded block would be
needed for the RADAR instrument. The necessary files have been received by
the sequence leads and will be approved for uplink on November 2.

Members of CDA have informed the S25 leads that they wish to uplink a patch
to instrument flight software. The patch has been approved by project
management and will be uplinked mid-November.

Monday, October 30 (DOY 303):

A post Titan 20 Titan Atmosphere Model Working Group (TAMWG) meeting was
held today. For T-20 it was reported that the AACS duty cycle was higher
than from just atmospheric torque compensation. This was due to turns for
the Visual and Infrared Mapping Spectrometer (VIMS) observations shortly
after Titan closest approach (CA). The density at 1030 km was estimated to
be 6.7E-10 kg/m3. The next TAMWG meeting is scheduled for December 20, after
the Titan 21 flyby. At that time, the TAMWG will recommend an updated
density model. AACS hopes to have the results of their T20 accelerometer
data analysis finished by that date.

Two future flybys will also receive additional scrutiny. Since Titan 27 has
a lot of turns near closest approach, and the turn design has changed since
the tumble density was last calculated, AACS will release a new T27 tumble
density estimate on Friday, November 3. In addition the altitude of the
Titan 32b flyby was selected using an old density model and now has a
predicted duty cycle of 80%. The Titan Orbiter Science Team is expected to
choose between T32a and T32b in early December. All teams participating in
S28 submitted their preliminary input products as part of the Science
Operations Plan Update Process. Final inputs are due next week with a
program briefing scheduled for November 20.

Tuesday, October 31 (DOY 304):

The Project Scientist has made a decision on the science trade between ISS
Enceladus and CDA E-ring observations to occur during S29. The two plans
proposed by the teams concerned were named "Carte Blanche" and "Plan B."
Both offered the prospect of achieving excellent scientific results. Carte
Blanche would mainly carry out optical remote sensing (ORS) observations,
whereas Plan B offers many instruments some opportunities.

In resolving situations of this kind, the Project Scientist must consider
several criteria in deciding which science will take priority. The criteria
used for resolving this contention were:

1) In order to select Carte Blanche, the incremental scientific value of the
results achieved by Carte Blanche over what we know now and what we will
know if Plan B is executed must clearly exceed the scientific value of the
CDA data to be obtained in Plan B.

2) A demonstration that the additional ORS observations gained under Carte
Blanche can only be obtained in S29.

FINDINGS:
1) The CDA in situ measurements to be made in Plan B are directly related to
achieving Cassini-Huygens objectives originating in the NASA and European
Space Agency Announcements of Opportunity. The desire for these measurements
was the reason for selecting the CDA instrument. Furthermore, this
characterization of the E-ring by CDA will be valuable as a boundary
condition for constraining models of Enceladus' plume activity and ring
models. The S29 opportunity is unique in the primary mission and is not
foreseen as occurring in an extended mission.

2) Carte Blanche offers some geometric opportunities which are important for
the interpretation of the grain size and other properties of Enceladus'
plume particles. It may afford the best opportunity for sorting out the
exact locations of some plume vents. Other opportunities for approximately
similar observations exist in the primary mission and are foreseeable in an
extended mission. However, it is problematical that all the observations to
be obtained under Carte Blanche could be done later.

JUDGEMENT:
Carte Blanche is good but it is not as fundamentally important as Plan B.
The Cassini-Huygens Project will adopt Plan B for S29.

Wednesday, November 01 (DOY 305):

Orbit 31 periapse occurred this week. Science opportunities for this event
included one of the first Magnetospheric and Plasma Science (MAPS)
instruments studies of the auroral region in which the spacecraft crosses
magnetic fields at high latitudes. The MAPS instruments also carried out a
vertical profile of the inner magnetosphere during this periapse, taking
advantage of Cassini's trajectory from south to north at a relatively
constant distance from the planet.

Wrap up:

Check out the Cassini web site at http://saturn.jpl.nasa.gov for the latest
press releases and images.

The Cassini-Huygens mission is a cooperative project of NASA, the European
Space Agency and the Italian Spsce Agency. The Jet Propulsion Laboratory, a
division of the California Institute of Technology in Pasadena, manages the
Cassini-Huygens mission for NASA's Science Mission Directorate, Washington,
D.C.  JPL designed, developed and assembled the Cassini orbiter.



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