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高速列车自动驾驶前馈自适应广义预测控制方法研究

罗源易杰白金磊张征方

控制与信息技术Issue(1)：14-22,9.

控制与信息技术Issue(1)：14-22,9.DOI:10.13889/j.issn.2096-5427.2024.01.002

高速列车自动驾驶前馈自适应广义预测控制方法研究

Research on Feed Forward Adaptive-generalized Model Predictive Control for High-speed Train Automatic Operation

罗源 ¹易杰 ¹白金磊 ¹张征方¹

作者信息

1. 株洲中车时代电气股份有限公司, 湖南株洲 412001
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摘要

Abstract

High-speed automatic train operation(ATO)systems inherently exhibit strong nonlinearity and uncertainty.In view of the characteristics of nonlinearity and time-variability of high-speed train model parameters,this paper proposes a feed forward adaptive-generalized model predictive control(FA-GPC)method for dynamic optimization control of the ATO system along with a constrained multi-object predictive controller.Based on a multi-particle train model,an initial analysis explores the impacts of additional resistance changes on train operation.Subsequently,a multi-object performance indicator function containing control input constraints is constructed,combined with key indicators during the operation of high-speed trains,such as speed tracking accuracy,stopping accuracy,and riding comfort.Furthermore,a feed forward generalized prediction speed tracking control algorithm is designed based on the multi-object function,aiming to solve controller overshoot due to additional resistance changes and enhance control convergence rates.Taking into account various factors including influences of external environments and passenger movement during train operation,the resistance changes greatly,making it difficult to establish an accurate mathematical model,a constrained variable forgetting factor-recursive least square method is incorporated to identify the controlled auto-regressive integrated moving average model(CARIMA)of the train control system under different operational conditions.This approach aims to improve the robustness of the control system.Simulation results show that,compared with traditional GPC in the absence of the feed forward functionality and PID controller,the proposed feed forward generalized controller demonstrates good cruise control speed tracking accuracy within a±0.5 km/h range under different line conditions and strong robustness thanks to the adaptive modification to the feed forward generalized predictive control algorithm for better performance in strong disturbance conditions.

关键词

高速列车/自动驾驶/自适应广义预测控制/参数辨识

Key words

high-speed train/automatic operation/adaptive-generalized model predictive control/parameter identification

引用本文复制引用

罗源,易杰,白金磊,张征方..高速列车自动驾驶前馈自适应广义预测控制方法研究[J].控制与信息技术,2024,(1):14-22,9.

基金项目

中国国家铁路集团有限公司科技研究开发计划课题(P2023J001) （P2023J001）

控制与信息技术

ISSN：2096-5427

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