The attitude data of the second example are registered during
an aircraft flight with a Litton LTN-72 Inertial Navigation
System of a Falcon jet. The registration rate was 10 Hz. The
characteristic of the aircraft flight is very different to the
space shuttle flight, which is much more smooth. This is ex-
pressed by the ARI process parameters; here the ARI process
order was only (2,2). The analysis refers to the central part
of the flight, not disturbed by take-off and landing maneuvers.
The results are presented here with reservation. Some discre-
pancies in the results caused by unsteadinesses in the aircraft
trajectory are subject of further research. During undisturbed
parts of the flight the standard deviation of the ARI-predic-
tion errors ce decrease below 0.0001 deg.
Table 5: INS attitude data from aircraft
Estimated standard deviations in [deg]
YAW PITCH ROLL
observation noise On 0.0023 0.0035 0.0030
ARI-model errors Ge 0.0005 0.0013 0.0026
filtered data ox 0.0011 0.0013 0.0017
Correlation coefficients of filtered data d=0.1 sec
r{id) 0.86 0.79 0.80
r(2d) 0.57 0.40 0.41
r(3d) 0.29 0.09 0.08
r (4d) 0.09 -0.07 -0209
The estimated observation noise on is in full accordance with
other investigations from a stationary INS of same type. In the
stationary mode the precision of the attitude measurement is
about four times higher than in the dynamic mode, which was
expected in advance.
4. Conclusions
This paper introduced autoregressive integrated stochastic pro-
cesses for modelling the dynamic characteristics of the exte-
rior orientation parameters of a sensor platform. The ARI-Model
in combination with a variance component estimation enables the
entire functional and stochastical description of the orienta-
tion parameters. The main advantages of this model are the easy
handling, the low number of necessary ARI process parameters
and the dispensation of any a priori information concerning the
stochastical model.
The successful application of the ARI model to very different
kinds of sensor orientation parameters improves the power of
the concept. Comparisons to other methods for accuracy estima-
tion demonstrate that the obtained results are realistic.
88
