Aircraft conflict resolution with trajectory recovery using mixed-integer programming

IF 1.8 3区数学 Q1 Mathematics

Journal of Global Optimization Pub Date : 2024-09-17 DOI:10.1007/s10898-024-01393-1

Fernando Dias, David Rey

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Abstract

To guarantee the safety of flight operations, decision-support systems for air traffic control must be able to improve the usage of airspace capacity and handle increasing demand. This study addresses the aircraft conflict avoidance and trajectory recovery problem. The problem of finding the least deviation conflict-free aircraft trajectories that guarantee the return to a target waypoint is highly complex due to the nature of the nonlinear trajectories that are sought. We present a two-stage iterative algorithm that first solves initial conflicts by manipulating their speed and heading control and then identifying each aircraft’s optimal time to recover its trajectory towards their nominal one. We extend existing mixed-integer programming formulations by modelling speed and heading control as continuous variables while recovery time is treated as a discrete variable. We develop a novel iterative approach which shows that the trajectory recovery costs can be anticipated by inducing avoidance trajectories with higher deviation, therefore obtaining earlier recovery time within a few iterations. Numerical results on benchmark conflict resolution problems show that this approach can solve instances with up to 30 aircraft within 10 min.

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利用混合整数程序设计恢复轨迹的飞机冲突解决方法

为保证飞行安全，空中交通管制决策支持系统必须能够提高空域容量的使用率，并应对日益增长的需求。本研究探讨了飞机冲突规避和轨迹恢复问题。由于要寻找的是非线性轨迹，因此寻找保证返回目标航点的最小偏差无冲突飞机轨迹问题非常复杂。我们提出了一种两阶段迭代算法，首先通过操纵速度和航向控制来解决初始冲突，然后确定每架飞机向其标称轨迹恢复的最佳时间。我们将速度和航向控制作为连续变量建模，而将恢复时间作为离散变量处理，从而扩展了现有的混合整数编程公式。我们开发了一种新颖的迭代方法，表明可以通过诱导偏差较大的回避轨迹来预计轨迹恢复成本，从而在几次迭代中提前获得恢复时间。解决基准冲突问题的数值结果表明，这种方法可以在 10 分钟内解决多达 30 架飞机的实例。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Global Optimization 数学-应用数学

CiteScore

0.10

自引率

5.60%

发文量

137

审稿时长

6 months

期刊介绍： The Journal of Global Optimization publishes carefully refereed papers that encompass theoretical, computational, and applied aspects of global optimization. While the focus is on original research contributions dealing with the search for global optima of non-convex, multi-extremal problems, the journal’s scope covers optimization in the widest sense, including nonlinear, mixed integer, combinatorial, stochastic, robust, multi-objective optimization, computational geometry, and equilibrium problems. Relevant works on data-driven methods and optimization-based data mining are of special interest. In addition to papers covering theory and algorithms of global optimization, the journal publishes significant papers on numerical experiments, new testbeds, and applications in engineering, management, and the sciences. Applications of particular interest include healthcare, computational biochemistry, energy systems, telecommunications, and finance. Apart from full-length articles, the journal features short communications on both open and solved global optimization problems. It also offers reviews of relevant books and publishes special issues.