8.4.3 Adaptive Tracking
Parameters
The behaviour of the adaptive is adjustable with a couple of
parameters. First, adaptive tracking also is a step track algorithm. The
parameters described in chapter '8.3.4 Steptrack
Parameters' therefore apply to the adaptive tracking as well. The
parameters concerning the adaptive tracking in particular are discussed
in the table below. All parameter described here are to be set at the Tracking page.
- AZMaximummodeltype
ELMaximummodeltype --- These settings let you limit the
adaptive model to a simpler one, the ACU would choose by itself. The
maximum model type can be set individually for each axis. Normally you
will set both axes to 'LARGE', which leaves the model selection fully to
the ACU's internal selection algorithms.In cases where the ACU seems to
be too 'optimistic' about the quality of the step track results, the
maximum model on one or both axes may be limited to a more simple and
more noise-resistant model. Specially inclined orbit satellites which
are located close to the longitude of the antenna's geodetic location
may require this limitation for the azimuth axis. With such a satellite,
the elevation may move several degrees while the azimuth shows almost no
motion.
- Levelthreshold --- If the beacon level falls below
this threshold value, the ACU does not perform a step track cycle. If
the level falls below the threshold during the steptrack cycle, the
cycle gets aborted.If the ADAPTIVE tracking is enabled and there is
enough data in the tracking memory, the ACU computes a mathematical
model from the stored data and predicts the antenna pointing position
from the extrapolation of the model. If the tracking mode is set to
'STEP', the ACU leaves the antenna where it is if the beacon level drops
below the limit.Adjusting the threshold level that adaptive tracking is
switched as expected must be done carefully and may require some
iterations, specially if the beacon is received with a low C/N. A good
starting value for the threshold is 10 dB below the nominal receive
level or 2 dB above the noise floor the beacon receiver sees with a
depointed antenna, whatever value is higher.To turn off the monitoring
of the beacon level (this in fact inhibits the adaptive tracking),
simply set the threshold the a very low value (e.g. -99 dBm)
- Peakjitterthreshold --- If the jitter value of at
least one axis exceeds this threshold, the ACU raises an 'model fault'.
If this happens three consecutive times, the ACU resets the models of
both axes. Adaptive tracking will be possible not until 6 hours after
this happens.During adaptive tracking, the ACU evaluates for each axis a
figure called jitter. The jitter value describes standard deviation of
the measured peak positions with respect to the positions calculated
from the (currently selected) model. The figure is also expressed as a
percentage of the antenna's beamwidth, low values indicate, that the
model ideally describes the antenna's path. High values indicate that's
something wrong. The step track results may be to noisy at low
amplitudes or the model does not fit at all. This may be the case if a
satellite gets repositioned in the orbit.A typical threshold value is
20%, this will detect very early that a model does not fit to describe
the satellite's motion. If this value causes false alarms too often, you
may want to raise the threshold to 50%. Setting it to 0 switches the
threshold monitoring completely off.