Close approach event data report. The
report is divided into subsections with each subsection listing
close approach events of secondaries with the same primary object.
The events are sorted in the order of the start time, SSC number of
the secondary object, minimum range, and duration of each event.
When doing sorting, if the numbers are close (within 1 mm or within
1 millisec), then the next sort criterion is used (if one
exists).
| Name |
Dimension |
Type |
Description |
| Approach Angle |
AngleUnit |
Real Number |
The angle between the inertial velocity of the
primary object and the inertial velocity of the secondary object at
the given time |
| Collision Probability
(Analytic) |
Unitless |
Real Number |
The probability of collision computed using an
analytic method based upon Ken Chan's paper. |
| Collision Probability
(Maha) |
Unitless |
Real Number |
The probability of collision computed using the
Maha method. |
| Collision
Probability (Nonlinear - Bundles) |
Unitless |
Real Number |
The probability of collision computed using a
numeric method based upon modeling collision tubes as bundles of
abutting parallelepipeds. Nonlinear probability measures may return
-1.0 if the user hits cancel during the computation, or for some
values of the inputs, which indicates that the max sigma value
should be made larger and the computation re-run. |
| Time In |
DateFormat |
Real Number |
Start time of the event. |
| Collision
Probability (Nonlinear - Cylinders) |
Unitless |
Real Number |
The probability of collision computed using a
numeric method based on a method of adjoining tubes (cylinders).
The collision tube is broken into small sections, the probability
associated with each section is computed, and then summed.
Nonlinear probability measures may return -1.0 if the user hits
cancel during the computation, or for some values of the inputs,
which indicates that the max sigma value should be made larger and
the computation re-run. |
| Collision Probability
(Numeric) |
Unitless |
Real Number |
The probability of collision computed using a
numeric method based upon Sal Alfano's paper. Collision Probability
(Numeric) will return -1.0 as an error indicator when encounter
plane's sigma X or sigma Z value is too small (less than 0.1
mm). |
| Time Out |
DateFormat |
Real Number |
Stop time of the event. |
| Time at Min Sep (TMS) |
DateFormat |
Real Number |
The time of the minimum separation between the
primary and secondary threat volumes. |
| Collision Probability
(Patera 2005) |
Unitless |
Real Number |
The probability of collision computed using an
analytic method based upon Russell Patera's paper that appeared in
the J. of Guidance, Control and Dynamics, vol. 28 (6), 2005. |
| Combined
HardBodyRadius |
SmallDistanceUnit |
Real Number |
The sum of the hard body radii of the primary and
secondary objects. |
| ConjTCA Min Type |
Unitless |
Text |
The type of the minimum conjunction range: either
Local Minimum or EndPoint Minimum. |
| ConjTCA |
DateFormat |
Real Number |
The time of closest approach (i.e., the minimum
range) between the primary and secondary objects that occurs during
the conjunction (i.e., during the close approach event interval).
See also Time of Close Appr (TCA) which is computed over a possibly
larger time interval per event. |
| Time of Close Appr (TCA) |
DateFormat |
Real Number |
The time of closest approach (i.e., the minimum
range) between the primary and secondary bodies. The value is
computed over the time interval produced by the Range filter, which
is likely larger than the time interval of the event itself. See
also ConjTCA. |
| Duration |
TimeUnit |
Real Number |
The duration of the event. |
| EncounterPlane Correlation
XZ |
Unitless |
Real Number |
The XZ covariance correlation coefficient of the
projection of the relative position covariance into the encounter
plane, as defined in Ken Chan's paper. The Y axis is normal to the
encounter plane, and is aligned with the relative velocity vector
at the time of close approach; the X axis lies along the line
between the primary and secondary at the time of close
approach. |
| EncounterPlane Normal Sigma |
DistanceUnit |
Real Number |
The sigma value along the Y direction for the
projection of the relative position covariance into the encounter
plane, as defined in Ken Chan's paper. The Y axis is normal to the
encounter plane, and is aligned with the relative velocity vector
at the time of close approach; the X axis lies along the line
between the primary and secondary at the time of close
approach. |
| EncounterPlane Sigma
AspectRatio |
Unitless |
Real Number |
The Encounter Plane Sigma Max divided by the
Encounter Plane Sigma Min. |
| EncounterPlane Sigma Max |
DistanceUnit |
Real Number |
The length of the major axis of the ellipse defined
by the projection of the relative position covariance into the
encounter plane, as defined in Ken Chan's paper. |
| Probability Linearity
Speed (Coarse) |
Rate |
Real Number |
The coarse estimate of the relative speed needed to
insure that the linear probability computation is accurate. |
| Prim: Lat (TMS) |
LatitudeUnit |
Real Number |
The primary object's detic latitude at the time of
minimum separation. |
| Probability Linearity
Speed (Fine) |
Rate |
Real Number |
The refined estimate of the relative speed needed
to insure that the linear probability computation is accurate. |
| Prim: Alt (TMS) |
DistanceUnit |
Real Number |
The primary object's detic altitude at the time of
minimum separation. |
| Short Term Encounter
Duration |
TimeUnit |
Real Number |
The duration of the encounter as computed using the
short-term encounter assumption. Reference: V.T. Coppola (2012),
Paper AAS 12-248. |
| TCA Uncertainty |
TimeUnit |
Real Number |
The uncertainty in the time of closest approach
computed from the relative position uncertainty and the relative
velocity at the time of the encounter. |
| EncounterPlane Sigma Min |
DistanceUnit |
Real Number |
The length of the minor axis of the ellipse defined
by the projection of the relative position covariance into the
encounter plane, as defined in Ken Chan's paper. |
| Prim: Long (TMS) |
LongitudeUnit |
Real Number |
The primary object's detic longitude at the time of
minimum separation. |
| Short Term Encounter Start |
DateFormat |
Real Number |
Start time of encounter according to short-term
encounter assumption. Reference: V.T. Coppola (2012), Paper AAS
12-248. |
| Short Term Encounter
Start Since TCA |
TimeUnit |
Real Number |
Duration from TCA of the encounter start according
to short-term encounter assumption. Reference: V.T. Coppola (2012),
Paper AAS 12-248. |
| EncounterPlane Sigma X |
DistanceUnit |
Real Number |
The sigma value along the X direction for the
projection of the relative position covariance into the encounter
plane, as defined in Ken Chan's paper. The Y axis is normal to the
encounter plane, and is aligned with the relative velocity vector
at the time of close approach; the X axis lies along the line
between the primary and secondary at the time of close
approach. |
| EncounterPlane Sigma Z |
DistanceUnit |
Real Number |
The sigma value along the Z direction for the
projection of the relative position covariance into the encounter
plane, as defined in Ken Chan's paper. The Y axis is normal to the
encounter plane, and is aligned with the relative velocity vector
at the time of close approach; the X axis lies along the line
between the primary and secondary at the time of close
approach. |
| Short Term Encounter Stop |
DateFormat |
Real Number |
Stop time of encounter according to short-term
encounter assumption. Reference: V.T. Coppola (2012), Paper AAS
12-248. |
| Short Term Encounter Stop
Since TCA |
TimeUnit |
Real Number |
Duration from TCA of the encounter stop according
to short-term encounter assumption. Reference: V.T. Coppola (2012),
Paper AAS 12-248. |
| Short Term Assumption
Duration |
TimeUnit |
Real Number |
The duration that the short-term encounter
assumption assumes is short. Reference: V.T. Coppola (2012), Paper
AAS 12-248. |
| EncounterPlane
Theta |
AngleUnit |
Real Number |
The orientation of the principal axis of the
ellipse defined by the projection of the relative position
covariance into the encounter plane, as defined in Ken Chan's
paper. |
| Prim: Radius (TMS) |
DistanceUnit |
Real Number |
The magnitude of the position vector of the primary
object at the time of minimum separation. |
| Max
Collision Probability |
Unitless |
Real Number |
The maximum probability of collision, as defined by
Sal Alfano's paper. |
| Min Conj Range |
DistanceUnit |
Real Number |
The range between the primary and secondary object
at the ConjTCA. |
| Prim: Speed (TMS) |
Rate |
Real Number |
The magnitude of the inertial velocity vector of
the primary object at the time of minimum separation. |
| Min Range
- CrossTrack |
DistanceUnit |
Real Number |
The component of the minimum range vector from the
primary object to the secondary object, along the cross-track
direction defined by the primary body's orbit (i.e., along the
orbit normal). |
| Min Range -
InTrack |
DistanceUnit |
Real Number |
The component of the minimum range vector from the
primary object to the secondary object, along the in-track
direction defined by the primary body (the in-track direction
completes a triad involving the radial and cross-track
directions). |
| Prim: Lat (TCA) |
LatitudeUnit |
Real Number |
The primary object's detic latitude at the time of
close approach. |
| Min Range -
Normal |
DistanceUnit |
Real Number |
The component of the minimum range vector from the
primary object to the secondary object, along the normal direction
defined by the primary body (the normal direction completes a triad
involving the tangential and cross-track directions, and is akin to
the radial direction). |
| Prim: Long (TCA) |
LongitudeUnit |
Real Number |
The primary object's detic longitude at the time of
close approach. |
| Sigma
Dilution Threshold |
DistanceUnit |
Real Number |
The sigma value at which the probability of
collision decreases with an increase in covariance, as defined by
Sal Alfano's paper. |
| Prim: Alt (TCA) |
DistanceUnit |
Real Number |
The primary object's detic altitude at the time of
close approach. |
| Min Range -
Radial |
DistanceUnit |
Real Number |
The component of the minimum range vector from the
primary object to the secondary object, along the radial direction
defined by the primary body. |
| Prim: Radius (TCA) |
DistanceUnit |
Real Number |
The magnitude of the position vector of the primary
object at the time of close approach. |
| Sec: Lat (TMS) |
LatitudeUnit |
Real Number |
The secondary object's detic latitude at the time
of minimum separation. |
| Sec: Alt (TMS) |
DistanceUnit |
Real Number |
The secondary object's detic altitude at the time
of minimum separation. |
| Min Range
- Tangential |
DistanceUnit |
Real Number |
The component of the minimum range vector from the
primary object to the secondary object, along the tangential
direction defined by the primary body (i.e., along the inertial
velocity direction of the primary). |
| Sec: Long (TMS) |
LongitudeUnit |
Real Number |
The secondary object's detic longitude at the time
of minimum separation. |
| TCA Min Type |
Unitless |
Text |
The type of the minimum range: either Local Minimum
or EndPoint Minimum. |
| Prim: Speed (TCA) |
Rate |
Real Number |
The magnitude of the inertial velocity vector of
the primary object at the time of close approach. |
| TMS Min Type |
Unitless |
Text |
The type of the minimum separation either Local
Minimum or EndPoint Minimum. |
| Min Range |
DistanceUnit |
Real Number |
The range (i.e., distance between the primary and
secondary object) at the time of close approach. |
| Min Separation |
DistanceUnit |
Real Number or Text |
The separation distance between the primary and
secondary threat volumes at the time of minimum separation. If the
ellipsoids intersect, then the value will be "Intersect". |
| Sec: Radius (TMS) |
DistanceUnit |
Real Number |
The magnitude of the position vector of the
secondary object at the time of minimum separation. |
| NumberID |
Unitless |
Text |
The number identifier of the secondary object
involved in the close approach event. If the object has no number
identifier, then the value will be "Not Avail". |
| Object Name |
Unitless |
Text |
The names of the secondary object involved in the
close approach event. |
| Sec: Speed (TMS) |
Rate |
Real Number |
The magnitude of the inertial velocity vector of
the secondary object at the time of minimum separation. |
| Primary Rev (TCA) |
Unitless |
Integer |
The revolution (pass) number of the primary object
at the time of close approach. |
| Range Sigma (TCA) |
Unitless |
Real Number |
The value of the range between the objects measured
at TCA, expressed in terms of sigma (i.e., the scale factor by
which the combined covariance ellipsoid would need to be scaled to
just touch the range vector). |
| Sec: Lat (TCA) |
LatitudeUnit |
Real Number |
The secondary object's detic latitude at the time
of close approach. |
| Range Uncertainty (TCA) |
DistanceUnit |
Real Number |
The uncertainty in the range at the time of close
approach. The uncertainty is computed by treating the ellipsoid
size and orientation as a measure of the position covariance for
each object. The relative position covariance is then computed and
projected onto the line of sight direction between the two objects
to compute the value. |
| Sec: Long (TCA) |
LongitudeUnit |
Real Number |
The secondary object's detic longitude at the time
of close approach. |
| Sec: Alt (TCA) |
DistanceUnit |
Real Number |
The secondary object's detic altitude at the time
of close approach. |
| Relative
Velocity |
Rate |
Real Number |
The magnitude of the difference in the inertial
velocities of the primary and secondary objects at the given
time. |
| Sec: Radius (TCA) |
DistanceUnit |
Real Number |
The magnitude of the position vector of the
secondary object at the time of close approach. |
| Sec: Speed (TCA) |
Rate |
Real Number |
The magnitude of the position vector of the
secondary object at the time of close approach. |
| Secondary Rev (TCA) |
Unitless |
Integer |
The revolution (pass) number of the secondary
object at the time of close approach. |
| SourceID |
Unitless |
Text |
The identifier of the object as used by the
ephemeris source for the object. For example, the identifier for
objects that use a GPS sem or yuma file is PRN-##. |
| SSC |
Unitless |
Text |
SSC number of the satellite with out of date TLE
data for the date selected. |
| StringID |
Unitless |
Text |
The string identifier of the secondary object
involved in the close approach event. If the object has no string
identifier, then the value will be "Not Avail". |