CDPP / CNES

Commit ce0f57e3bd178fb84da1b3203419440ddd31b166

Authored by Elena.Budnik
1 parent 98330768
Exists in master and in 12 other branches amdadev, aschulz, autocommit, bepi_master, bepi_update, branch_q, cleanup_registry, cleanup_registry_master, cleanup_registry_merged, juice_jdc, juno_jade, soar

work

Showing 5 changed files with 83 additions and 11 deletions   Show diff stats
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Instrument/AMDA/Cassini/Ephemeris.xml
  Diff comments   View file @ce0f57e
... ... @@ -4,7 +4,7 @@
4 4 <Instrument>
5 5 <ResourceID>spase://CDPP/Instrument/AMDA/Cassini/Ephemeris</ResourceID>
6 6 <ResourceHeader>
7   - <ResourceName>Ephemeris @ Iowa</ResourceName>
  7 + <ResourceName>Ephemeris</ResourceName>
8 8 <AlternateName></AlternateName>
9 9 <ReleaseDate>2009-05-20T21:10:13Z</ReleaseDate>
10 10 <Description>
... ...
Instrument/AMDA/Cassini/Moons_Ephemeris.xml
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... ... @@ -4,7 +4,7 @@
4 4 <Instrument>
5 5 <ResourceID>spase://CDPP/Instrument/AMDA/Cassini/Moons_Ephemeris</ResourceID>
6 6 <ResourceHeader>
7   - <ResourceName>Moons Ephemeris @ Iowa</ResourceName>
  7 + <ResourceName>Moons Ephemeris</ResourceName>
8 8 <AlternateName></AlternateName>
9 9 <ReleaseDate>2009-05-20T21:10:13Z</ReleaseDate>
10 10 <Description>
... ...
NumericalData/AMDA/Cassini/Moons_Ephemeris/dione-ephem-polar.xml
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... ... @@ -32,21 +32,69 @@
32 32 http://amda.cdpp.eu
33 33 </URL>
34 34 </AccessURL>
35   - <Format/>
  35 + <Format>Text</Format>
36 36 <Acknowledgement>
37 37 </Acknowledgement>
38 38 </AccessInformation>
39 39 <ProviderName/>
40 40 <InstrumentID>spase://CDPP/Instrument/AMDA/Cassini/Moons_Ephemeris</InstrumentID>
41   - <MeasurementType/>
  41 + <MeasurementType>Ephemeris</MeasurementType>
42 42 <TemporalDescription>
43 43 <TimeSpan>
44 44 <StartDate>2014-05-11T16:20:00Z</StartDate>
45 45 <StopDate>2014-05-11T16:20:00Z</StopDate>
46 46 </TimeSpan>
47   - <Cadence>300s</Cadence></TemporalDescription>
48   - <ObservedRegion/>
  47 + <Cadence>PT300S</Cadence></TemporalDescription>
  48 + <ObservedRegion>Saturn</ObservedRegion>
49 49 <Caveats>
50 50 </Caveats>
51   -<Parameter><Name>lon_IAU</Name><ParameterKey>dione_wl_iau</ParameterKey><Description/><Ucd/><Units>deg</Units><UnitsConversion/></Parameter><Parameter><Name>lon_SLS3</Name><ParameterKey>dione_wl_sls3</ParameterKey><Description/><Ucd/><Units>deg</Units><UnitsConversion/></Parameter><Parameter><Name>lat</Name><ParameterKey>dione_lat</ParameterKey><Description/><Ucd/><Units>deg</Units><UnitsConversion/></Parameter><Parameter><Name>Ldip</Name><ParameterKey>dione_l</ParameterKey><Description/><Ucd/><Units>no</Units><UnitsConversion/></Parameter><Parameter><Name>LT</Name><ParameterKey>dione_lt</ParameterKey><Description/><Ucd/><Units>hours</Units><UnitsConversion/></Parameter><Parameter><Name>r</Name><ParameterKey>dione_r_polar</ParameterKey><Description/><Ucd/><Units>Rs</Units><UnitsConversion/></Parameter></NumericalData>
  51 + <Parameter>
  52 + <Name>lon iau_saturn</Name>
  53 + <ParameterKey>dione_wl_iau</ParameterKey>
  54 + <Description/>
  55 + <Ucd/>
  56 + <Units>deg</Units>
  57 + <UnitsConversion/>
  58 + </Parameter>
  59 + <Parameter>
  60 + <Name>lon_sls3</Name>
  61 + <ParameterKey>dione_wl_sls3</ParameterKey>
  62 + <Description/>
  63 + <Ucd/>
  64 + <Units>deg</Units>
  65 + <UnitsConversion/>
  66 + </Parameter>
  67 + <Parameter>
  68 + <Name>lat</Name>
  69 + <ParameterKey>dione_lat</ParameterKey>
  70 + <Description/>
  71 + <Ucd/>
  72 + <Units>deg</Units>
  73 + <UnitsConversion/>
  74 + </Parameter>
  75 + <Parameter>
  76 + <Name>L dip</Name>
  77 + <ParameterKey>dione_l</ParameterKey>
  78 + <Description/>
  79 + <Ucd/>
  80 + <Units/>
  81 + <UnitsConversion/>
  82 + </Parameter>
  83 + <Parameter>
  84 + <Name>local time</Name>
  85 + <ParameterKey>dione_lt</ParameterKey>
  86 + <Description/>
  87 + <Ucd/>
  88 + <Units>hours</Units>
  89 + <UnitsConversion/>
  90 + </Parameter>
  91 + <Parameter>
  92 + <Name>distance dione-saturn</Name>
  93 + <ParameterKey>dione_r_polar</ParameterKey>
  94 + <Description/>
  95 + <Ucd/>
  96 + <Units>Rs</Units>
  97 + <UnitsConversion/>
  98 + </Parameter>
  99 + </NumericalData>
52 100 </Spase>
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NumericalData/AMDA/Rosetta/Ephemeris/sun-pol-cgck.xml
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... ... @@ -28,7 +28,7 @@
28 28 <TemporalDescription>
29 29 <TimeSpan>
30 30 <StartDate>2014-01-01T00:00:00Z</StartDate>
31   - <StopDate>2016-01-15T23:59:00Z</StopDate>
  31 + <StopDate>2016-03-04T23:59:00Z</StopDate>
32 32 </TimeSpan>
33 33 <Cadence>PT60S</Cadence>
34 34 </TemporalDescription>
... ...
Observatory/AMDA/Cassini.xml
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... ... @@ -5,12 +5,36 @@
5 5 <ResourceID>spase://CDPP/Observatory/AMDA/Cassini</ResourceID>
6 6 <ResourceHeader>
7 7 <ResourceName>Cassini</ResourceName>
8   - <AlternateName>Cassini-Huygens, NASA mission to Saturn</AlternateName>
  8 + <AlternateName>Cassini-Huygens, NASA/ESA mission to Saturn</AlternateName>
9 9 <ReleaseDate>2010-08-05T18:19:17Z</ReleaseDate>
10   - <Description>The Cassini spacecraft, launched in October 1997, entered
  10 + <Description>
  11 + The Cassini spacecraft, launched in October 1997, entered
11 12 a Saturn-centered orbit in July 2004. It is instrumented for a wide range of
12 13 remote sensing and in situ observations. It delivered the ESA-built Huygens Probe
13   - to investigate Titan.</Description>
  14 + to investigate Titan.
  15 +
  16 + The Cassini mission to Saturn is one of the most ambitious efforts in planetary
  17 + space exploration ever mounted. A joint endeavor of NASA, the European Space Agency (ESA)
  18 + and the Italian space agency, Agenzia Spaziale Italiana (ASI), Cassini is a
  19 + sophisticated robotic spacecraft orbiting the ringed planet and studying the
  20 + Saturnian system in detail. Cassini also carried a probe called Huygens, which
  21 + parachuted to the surface of Saturn’s largest moon, Titan, in January 2005 and
  22 + returned spectacular results.
  23 +
  24 +Cassini completed its initial four-year mission to explore the Saturn System in June 2008,
  25 +and the first extension, called the Cassini Equinox Mission, in September 2010. Now, the healthy
  26 +spacecraft is making exciting new discoveries in a second extension called the Cassini Solstice
  27 +Mission.
  28 +
  29 +In late 2016, the Cassini spacecraft will begin a daring set of orbits called the Grand Finale,
  30 +which will be in some ways like a whole new mission. The spacecraft will repeatedly climb high
  31 +above Saturn’s poles, flying just outside its narrow F ring 20 times. After a
  32 +last targeted Titan flyby, the spacecraft will then dive between Saturn’s
  33 +uppermost atmosphere and its innermost ring 22 times. As Cassini plunges past Saturn,
  34 +the spacecraft will collect rich and valuable information far beyond the mission’s original plan,
  35 +including measuring Saturn’s gravitational and magnetic fields, determining ring mass,
  36 +sampling the atmosphere and ionosphere, and making the last views of Enceladus.
  37 +</Description>
14 38 <Contact>
15 39 <PersonID>spase://SMWG/Person/Dennis.L.Matson</PersonID>
16 40 <Role>ProjectScientist</Role>
... ...