Safe trajectory tracking for the two-aircraft system

This paper presents a trajectory tracking scheme with safe collision conflict resolution for the case of two aircraft at a fixed altitude. The proposed scheme allows each aircraft to optimize its discretized trajectory independently with the use of limited position information from the other aircraf...

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Bibliographic Details
Published in	2007 IEEE International Conference on Electro/Information Technology pp. 362 - 367
Main Authors	Mejia, J.S., Stipanovic, D.M.
Format	Conference Proceeding
Language	English
Published	IEEE 01.05.2007
Subjects	Aircraft Angular velocity Constraint optimization Kinematics Limit-cycles Minimization methods Optimization methods Quadratic programming Safety Trajectory
Online Access	Get full text
ISBN	1424409403 9781424409402
ISSN	2154-0357
DOI	10.1109/EIT.2007.4374459

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Abstract	This paper presents a trajectory tracking scheme with safe collision conflict resolution for the case of two aircraft at a fixed altitude. The proposed scheme allows each aircraft to optimize its discretized trajectory independently with the use of limited position information from the other aircraft over a receding time horizon. The aircraft objective function, to be minimized over each time horizon, represents distance deviations from the flight plan discretized trajectory and the contribution of a barrier function that acts in the case of relative distance proximity between aircraft. Aircraft are modeled by a discrete kinematic model subject to bounds on velocity and angular velocity. The optimization is performed using a sequential quadratic programming method which allows for minimization of a scalar nonlinear function subject to multiple nonlinear equality constraints (kinematic model) and multiple inequality constraints (velocity constraints and safety conditions). For special symmetric cases where the proposed scheme fails (singular cases) a limit cycle method is implemented to modify segments of the flight plan desired trajectories leading to feasible solutions in terms of the optimization process.
AbstractList	This paper presents a trajectory tracking scheme with safe collision conflict resolution for the case of two aircraft at a fixed altitude. The proposed scheme allows each aircraft to optimize its discretized trajectory independently with the use of limited position information from the other aircraft over a receding time horizon. The aircraft objective function, to be minimized over each time horizon, represents distance deviations from the flight plan discretized trajectory and the contribution of a barrier function that acts in the case of relative distance proximity between aircraft. Aircraft are modeled by a discrete kinematic model subject to bounds on velocity and angular velocity. The optimization is performed using a sequential quadratic programming method which allows for minimization of a scalar nonlinear function subject to multiple nonlinear equality constraints (kinematic model) and multiple inequality constraints (velocity constraints and safety conditions). For special symmetric cases where the proposed scheme fails (singular cases) a limit cycle method is implemented to modify segments of the flight plan desired trajectories leading to feasible solutions in terms of the optimization process.
Author	Stipanovic, D.M. Mejia, J.S.
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Snippet	This paper presents a trajectory tracking scheme with safe collision conflict resolution for the case of two aircraft at a fixed altitude. The proposed scheme...
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StartPage	362
SubjectTerms	Aircraft Angular velocity Constraint optimization Kinematics Limit-cycles Minimization methods Optimization methods Quadratic programming Safety Trajectory
Title	Safe trajectory tracking for the two-aircraft system
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