Research on control parameters of high-speed maglev train under stochastic track irregularities

IF 3 3区 工程技术 Q2 ENGINEERING, MECHANICAL Probabilistic Engineering Mechanics Pub Date : 2024-07-01 DOI:10.1016/j.probengmech.2024.103664
Weixu Wang , Bin Wang , Gang Deng , Lingfeng Ma
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Abstract

During operational phases, maglev trains encounter track irregularities, presenting a formidable challenge to the integrity of their control systems owing to the inherently stochastic nature, a challenge accentuated in the context of high-speed maglev trains. This study aims to comprehensively examine control parameters within the context of stochastic excitation resulting from track irregularities. Through the development of a rigorous stochastic response analysis model utilizing the pseudo excitation method, the investigation delves into the dynamics of an EMS-type high-speed maglev train-rigid track system. Evaluation indices, derived from the power spectral density of the maglev train's response, are established to quantify both control stability and operational stability. Subsequently, based on these indices, a recommended range of PD control parameters is proposed, accounting for the requirements stipulated by the evaluation metrics. The study elucidates that variation in PD control parameters exert discernible effects on the system's stability, primarily altering the nature frequency and damping ratio. Specifically, control stability demonstrates a positive correlation with increasing PD control parameters, while operational stability exhibits a nuanced relationship—initially bolstered by escalating proportional coefficients but subsequently tempered, albeit gradually, with heightened derivative coefficients. The delineated range of values for PD control parameters is meticulously determined, considering pertinent physical parameters of the electromagnetic system, such as mass, static suspension current, and static suspension gap, alongside factors like the Sperling indicator and suspension gap variation.

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随机轨道不规则情况下的高速磁悬浮列车控制参数研究
在运行阶段,磁悬浮列车会遇到轨道不规则的情况,由于其固有的随机性,对其控制系统的完整性提出了严峻的挑战。本研究旨在全面研究轨道不规则性产生的随机激励背景下的控制参数。通过利用伪激励方法建立严格的随机响应分析模型,研究人员深入探讨了 EMS 型高速磁悬浮列车-刚性轨道系统的动力学特性。根据磁悬浮列车响应的功率谱密度建立了评估指数,用于量化控制稳定性和运行稳定性。随后,根据这些指数,并考虑到评价指标规定的要求,提出了 PD 控制参数的建议范围。研究表明,PD 控制参数的变化会对系统的稳定性产生明显的影响,主要是改变自然频率和阻尼比。具体来说,控制稳定性与 PD 控制参数的增加呈正相关,而运行稳定性则表现出一种微妙的关系--最初,比例系数的增加会增强系统的稳定性,但随后,导数系数的增加会逐渐削弱系统的稳定性。PD 控制参数的取值范围是精心确定的,考虑了电磁系统的相关物理参数,如质量、静态悬浮电流和静态悬浮间隙,以及斯珀林指标和悬浮间隙变化等因素。
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来源期刊
Probabilistic Engineering Mechanics
Probabilistic Engineering Mechanics 工程技术-工程:机械
CiteScore
3.80
自引率
15.40%
发文量
98
审稿时长
13.5 months
期刊介绍: This journal provides a forum for scholarly work dealing primarily with probabilistic and statistical approaches to contemporary solid/structural and fluid mechanics problems encountered in diverse technical disciplines such as aerospace, civil, marine, mechanical, and nuclear engineering. The journal aims to maintain a healthy balance between general solution techniques and problem-specific results, encouraging a fruitful exchange of ideas among disparate engineering specialities.
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