If method is OK success = true, else success = false
Url's of AMDA local parameters
ID of AMDA user. If no user ID, user is IMPEX
Crypt Password of AMDA user
If method is OK success = true, else success = false
Url of TimeTables storage file with TimeTables
ID's.
ID of AMDA user. If no user ID, user is IMPEX
Crypt Password of AMDA user
If method is OK success = true, else success = false
Url of UserDefinedParameters, Url of AmdaLocalDataBaseParameters,
Url of RemoteDataBaseParameters ( not implemented )
Identifiers of the origin and orientation
of a set of typically orthogonal axes.
Corrected Geomagnetic - A coordinate system
from a spatial point with GEO radial distance
and geomagnetic latitude and longitude, follow
the epoch-appropriate IGRF/DGRF model field
vector through to the point where the field
line crosses the geomagnetic dipole equatorial
plane. Then trace the dipole magnetic field
vector Earthward from that point on the equatorial
plane, in the same hemisphere as the original
point, until the initial radial distance is
reached. Designate the dipole latitude and
longitude at that point as the CGM latitude
and longitude of the original point. See <http://nssdc.gsfc.nasa.gov/space/cgm/cgmm_des.html>
A coordinate system which is centered at the
Sun and is "fixed" with respect to the synodic
rotation rate; the mean synodic value is about
27.2753 days. The Astronomical Almanac gives
a value for Carrington longitude of 349.03
degrees at 0000 UT on 1 January 1995.
Dipole Meridian - A coordinate system centered
at the observation point. Z axis is parallel
to the Earth's dipole axis, positive northward.
X is in the plane defined by Z and the line
linking the observation point with the Earth's
center. Y is positive eastward. See <http://cdpp.cnes.fr/00428.pdf>
Geocentric Equatorial Inertial - A coordinate
system where the Z axis is along Earth's spin
vector, positive northward. X axis points
towards the first point of Aries (from the
Earth towards the Sun at the vernal equinox).
See Russell, 1971
Geographic - geocentric corotating - A coordinate
system where the Z axis is along Earth's spin
vector, positive northward. X axis lies in
Greenwich meridian, positive towards Greenwich.
See Russell, 1971.
Geocentric Solar Ecliptic - A coordinate system
where the X axis is from Earth to Sun. Z axis
is normal to the ecliptic, positive northward.
See Russell, 1971.
Geocentric Solar Equatorial - A coordinate
system where the X axis is from Earth to Sun.
Y axis is parallel to solar equatorial plane.
Z axis is positive northward. See Russell,
1971
Geocentric Solar Magnetospheric - A coordinate
system where the X axis is from Earth to Sun,
Z axis is northward in a plane containing
the X axis and the geomagnetic dipole axis.
See Russell, 1971
Heliocentric Aries Ecliptic - A coordinate
system where the Z axis is normal to the ecliptic
plane, positive northward. X axis is positive
towards the first point of Aries (from Earth
to Sun at vernal equinox). Same as SE below.
See Hapgood, 1992.
Heliocentric Cartesian - A 3-D orthonormal
coordinate system that is primarily intended
to specify with two dimensions a point on
the solar disk. The Z axis points toward the
observer. The Y axis lies in the plane defined
by the solar spin vector and the Z axis, positive
northward. The X axis is perpendicular to
the Y and Z axes, positive toward solar west.
Standard representation for this system is
via the point's x and y values, expressed
either as physical distances or as fractions
of the solar disk radius.
Heliographic Carrington Inertial.
Heliocentric Radial - A 3-D orthonormal coordinate
system that is primarily intended to specify
with two dimensions a point on the solar disk.
The Z axis points toward the observer. The
Y axis lies in the plane defined by the solar
spin vector and the Z axis, positive northward.
The X axis is perpendicular to the Y and Z
axes, positive toward solar west. Standard
representation for this system is via the
point's distance rho from the Z axis [Rho
= SQRT(x**2 + y**2)] and its phase angle psi
measured counterclockwise from the +Y axis
[psi = arctan (-y/x)]
Heliocentric Earth Ecliptic - A coordinate
system where the Z axis is normal to the ecliptic
plane, positive northward. X axis points from
Sun to Earth. See Hapgood, 1992
Heliocentric Earth Equatorial - A coordinate
system where the Z axis is normal to the solar
equatorial plane, positive northward. X axis
is generally Earthward in the plane defined
by the Z axis and the Sun-Earth direction.
See Hapgood, 1992.
Heliographic - A heliocentric rotating coordinate
system where the Z axis is normal to the solar
equatorial plane, positive northward. X, Y
axes rotate with a 25.38 day period. The zero
longitude (X axis) is defined as the longitude
that passed through the ascending node of
the solar equator on the ecliptic plane on
1 January, 1854 at 12 UT. See <http://nssdc.gsfc.nasa.gov/space/helios/coor_des.html>
Heliographic Inertial - A heliocentric coordinate
system where the Z axis is normal to the solar
equatorial plane, positive northward. X axis
is along the intersection line between solar
equatorial and ecliptic planes. The X axis
was positive at SE longitude of 74.367 deg
on Jan 1, 1900. (See SE below.) See <http://nssdc.gsfc.nasa.gov/space/helios/coor_des.html>
Helioprojective Cartesian = A 3-D orthonormal
(left-handed) coordinate system that is primarily
intended to specify with two dimensions a
point on the solar disk. The Z axis points
from the observer to the center of the solar
disk. The Y axis lies in the plane defined
by the solar spin vector and the Z axis, positive
northward. The X axis is perpendicular to
the Y and Z axes, positive toward solar west.
Given as the distance between the observer
and the center of the solar disk, the standard
representation of an (x,y) point on the solar
disk is via the point's longitude angle [arctan
(x/d)] and latitude angle [arctan y/d].
Helioprojective Radial - A 3-D orthonormal
(left-handed) coordinate system that is primarily
intended to specify with two dimensions a
point on the solar disk. The Z axis points
from the observer to the center of the solar
disk. The Y axis lies in the plane defined
by the solar spin vector and the Z axis, positive
northward. The X axis is perpendicular to
the Y and Z axes, positive toward solar west.
Given as the distance between the observer
and the center of the solar disk, the standard
representation for this system of an (x,y)
point on the solar disk is via the point's
latitude angle theta {= arctan [SQRT(x**2
+ y**2)]/d]} or equivalent declination parameter
delta (= theta - 90 deg), and its phase angle
psi as measured counter- clockwise from the
+Y axis [psi = arctan (-y/x)].
An astronomical coordinate system which uses
the mean equator and equinox of Julian date
2451545.0 TT (Terrestrial Time), or January
1, 2000, noon TT. (aka J2000) to define a
celestial reference frame.
Local Geomagnetic - A coordinate system used
mainly for Earth surface or near Earth surface
magnetic field data. X axis northward from
observation point in a geographic meridian.
Z axis downward towards Earth's center. In
this system, H (total horizontal component)
= SQRT (Bx^2 + By^2) and D (declination angle)
= arctan (By/Bx)
Geomagnetic - geocentric. Z axis is parallel
to the geomagnetic dipole axis, positive north.
X is in the plane defined by the Z axis and
the Earth's rotation axis. If N is a unit
vector from the Earth's center to the north
geographic pole, the signs of the X and Y
axes are given by Y = N x Z, X = Y x Z.. See
Russell, 1971, and <http://cdpp.cnes.fr/00428.pdf>
Magnetic Field Aligned - A coordinate system
spacecraft-centered system with Z in the direction
of the ambient magnetic field vector. X is
in the plane defined by Z and the spacecraft-Sun
line, positive sunward. See <http://cdpp.cnes.fr/00428.pdf>
Radial Tangential Normal. Typically centered
at a spacecraft. Used for IMF and plasma V
vectors. R (radial) axis is radially away
from the Sun, T (tangential) axis is normal
to the plane formed by R and the Sun's spin
vector, positive in the direction of planetary
motion. N (normal) is R x T.
Spacecraft - A coordinate system defined by
the spacecraft geometry and/or spin. Often
has Z axis parallel to spacecraft spin vector.
X and Y axes may or may not corotate with
the spacecraft. See SR and SR2 below.
Solar Ecliptic - A heliocentric coordinate
system where the Z axis is normal to the ecliptic
plane, positive northward. X axis is positive
towards the first point of Aries (from Earth
to Sun at vernal equinox). Same as HAE above.
See <http://nssdc.gsfc.nasa.gov/space/helios/coor_des.html>
Solar Magnetic - A geocentric coordinate system
where the Z axis is northward along Earth's
dipole axis, X axis is in plane of z axis
and Earth-Sun line, positive sunward. See
Russell, 1971.
Spin Reference - A special case of a Spacecraft
(SC) coordinate system for a spinning spacecraft.
Z is parallel to the spacecraft spin vector.
X and Y rotate with the spacecraft. See <http://cdpp.cnes.fr/00428.pdf>
Spin Reference 2 - A special case of a Spacecraft
(SC) coordinate system for a spinning spacecraft.
Z is parallel to the spacecraft spin vector.
X is in the plane defined by Z and the spacecraft-Sun
line, positive sunward. See <http://cdpp.cnes.fr/00428.pdf>
Spacecraft Solar Ecliptic - A coordinate system
used for deep space spacecraft, for example
Helios. - X axis from spacecraft to Sun. Z
axis normal to ecliptic plane, positive northward.
Note: Angle between normals to ecliptic and
to Helios orbit plane ~ 0.25 deg.
Selenocentric Solar Ecliptic. The X axis
points from the center of the Earth's moon
to the sun, the Z axis is normal to the ecliptic
plane, positive northward. And the Y axis
completes the right-handed set of axes.
A coordinate system where X lies in the plane
normal to and in the direction of motion of
the spacecraft, Z is normal to this plane
and Y completes the triad in a right-handed
coordinate system.
The World Geodetic System (WGS) defines a
reference frame for the earth, for use in
geodesy and navigation. The WGS84 uses the
zero meridian as defined by the Bureau International
de l'Heure.
Coordinate Sytem Related to Mars or Mercury
Depending on the Targeted Region
Coordinate Sytem Related to Venus
Start time in ISO 8601 format
Stop time in ISO 8601 format
Id of parameter defined in
Amda LocalParams.xml
Sampling or average time in sec
ID of AMDA user. If no user ID, user is IMPEX
Crypt Password of AMDA user
Choice is possible between the four formats: netCDF, CDF,
ASCII and VOTable. If the format is not specified it will be ASCII
by default
Choice is possible between the two formats: ISO 8601
or unixtime. If the format is not specified it will be ISO 8601 by
default
1 to compress data with gzip (0 by
default)
If method is OK success = true, else success = false
URLs of results data files. If no URLs - no data for
required parameters
process ID
process ID
URLs of results data files. If no URLs - no data for
required parameters
URLs of results plot files. If no URLs - no data for
required parameters
Start time in ISO 8601 format
Stop time in ISO 8601 format
Id of Data Sets defined in
Amda LocalParams.xml
Sampling or average time in sec
ID of AMDA user. If no user ID, user is IMPEX
Crypt Password of AMDA user
Choice is possible between the four formats: netCDF, CDF,
ASCII and VOTable. If the format is not specified it will be ASCII
by default
Choice is possible between the two formats: ISO 8601
or unixtime. If the format is not specified it will be ISO 8601 by
default
1 to compress data with gzip (0 by
default)
URLs of results data files. If not URLs - not data for
required datasets
process ID
Start time in ISO 8601 format
Stop time in ISO 8601 format
Id of mission defined in
Amda LocalParams.xml
ID of AMDA user
Password of AMDA user
success or not
process ID
URL of png file
Start time in ISO 8601 format
Stop time in ISO 8601 format
List of spacecraft from AMDA
Coordinate System Name
Units of orbits: radius or km. By default km
Sampling or average time in sec
ID of AMDA user. If no user ID, user is IMPEX
Crypt Password of AMDA user
Choice is possible between the four formats: netCDF, CDF,
ASCII and VOTable. If the format is not specified it will be ASCII
by default
Choice is possible between the two formats: ISO 8601
or unixtime. If the format is not specified it will be ISO 8601 by
default
1 to compress data with gzip (0 by
default)
URLs of results data files. If not URLs - not data for
required parameters
process ID
ID of AMDA user. If no user ID, user is IMPEX
Crypt Password of AMDA user
Id of time table
URL of TT file