Distributed virtual formation control for railway trains with nonlinear dynamics and collision avoidance constraints

IF 7.6 1区 工程技术 Q1 TRANSPORTATION SCIENCE & TECHNOLOGY
Yiwen Zhang , Shukai Li , Zebin Chen , Chengpu Yu , Lixing Yang
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引用次数: 0

Abstract

To improve the model accuracy and control efficiency for the movements of a virtual formation, this paper investigates distributed optimal control for the virtual formation control system in railways. Adopting the relative distance braking mode, a coupled optimal control problem with nonlinear train dynamics and constraints regarding collision avoidance and jerk is formulated for the virtual formation. To handle the non-convex constrained problem efficiently, a distributed augmented Lagrangian based alternating direction inexact newton (ALADIN) method under the model predictive control (MPC) framework is developed. For the execution of the distributed computational process, the copied variables are introduced to reformulate the original coupled problem in an objective separable form. By exploiting the problem separability, the ALADIN method decomposes the reformulation into a coordinated quadratic programming problem of small-scale and several local nonlinear programming problems that can be calculated in parallel, thereby facilitating real-time control and relieving communication burden. Numerical experiments on a metro line are carried out to verify the effectiveness of the proposed model and method. Experimental results demonstrate that high-performance tracking control for virtually coupled train units can be achieved in real time.

具有非线性动力学和避免碰撞约束的铁路列车分布式虚拟编组控制
为了提高虚拟编队运动的模型精度和控制效率,本文研究了铁路虚拟编队控制系统的分布式最优控制。采用相对距离制动模式,为虚拟编队提出了一个具有非线性列车动力学以及避免碰撞和颠簸约束的耦合最优控制问题。为了有效地处理这个非凸约束问题,在模型预测控制(MPC)框架下开发了一种基于交替方向不精确牛顿(ALADIN)的分布式增强拉格朗日方法。为了执行分布式计算过程,引入了复制变量,以目标可分形式重新表述原始耦合问题。通过利用问题的可分离性,ALADIN 方法将重新表述分解为一个协调的小规模二次编程问题和多个可并行计算的局部非线性编程问题,从而促进了实时控制并减轻了通信负担。为了验证所提模型和方法的有效性,我们在一条地铁线上进行了数值实验。实验结果表明,可以实时实现对虚拟耦合列车单元的高性能跟踪控制。
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来源期刊
CiteScore
15.80
自引率
12.00%
发文量
332
审稿时长
64 days
期刊介绍: Transportation Research: Part C (TR_C) is dedicated to showcasing high-quality, scholarly research that delves into the development, applications, and implications of transportation systems and emerging technologies. Our focus lies not solely on individual technologies, but rather on their broader implications for the planning, design, operation, control, maintenance, and rehabilitation of transportation systems, services, and components. In essence, the intellectual core of the journal revolves around the transportation aspect rather than the technology itself. We actively encourage the integration of quantitative methods from diverse fields such as operations research, control systems, complex networks, computer science, and artificial intelligence. Join us in exploring the intersection of transportation systems and emerging technologies to drive innovation and progress in the field.
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