Improved Prandini Conflict Detection Algorithm Based on Trajectory
Prediction 2023-01-7100
As a traditional probabilistic mid-term conflict detection algorithm, the
Prandini algorithm plays an essential role in ensuring flight safety in the
aircraft route area. For the issue of mutation error in the calculation results
of the Prandini algorithm, this research provides an improved Prandini conflict
detection algorithm. First, the integral of the standard Gaussian distribution
is solved using randomization. The minimum prediction interval moment is then
calculated, and the critical time points at which conflicts may exist before and
after that moment are approximated separately using a bisection method. N moment
values are selected uniformly within the time range formed by the two critical
time points. The instantaneous conflict probabilities for these N moments are
calculated and the maximum value is selected from them as a measure of the
likelihood of conflict between the two aircraft over the entire route for an
extreme case. Finally, a trajectory position prediction error model is built
using actual ADS-B data to verify the performance of this improved algorithm for
application in the no route change scenario and the multi-route scenario. The
experimental results show that compared with the original Prandini algorithm,
the method improves the stability of conflict detection and can meet the
requirements of air traffic control (ATC) for medium-term conflict
detection.