摆式列车受电弓垂向振动主动控制

建立了摆式列车机电耦合动力学模型、受电弓线性和非线性动力学模型及接触网有限元模型和静态接触刚度模型,组成摆式列车-受电弓-接触网耦合动力学模型,分别设计了P和H∞鲁棒控制器,应用数值仿真方法,研究了摆式列车直线和曲线通过时两种控制器对摆式列车受电弓垂向主动控制的效果。结果表明受电弓若无垂向控制,其弓网接触压力波动较大;P和H∞鲁棒控制均能减小弓网接触压力的波动;控制延时对P控制比对H∞鲁棒控制的影响大;是否考虑接触网的振动对接触压力影响较大,对控制效果影响不大。这说明摆式列车受电弓垂向主动控制能明显改善弓网接触压力波动;H∞鲁棒控制比P控制效果更好;接触网的静态接触刚度模型可用于受电弓主动控制的定性分析。     

SNS柔性防护技术在边坡危岩防护中的应用

SNS柔性防护系统具有施工快捷、方便、环保、美观等独特的优势,应用于庐江至铜陵高速公路边坡危岩防护中．替代传统的加固防护措施,解决了在山区复杂环境地质条件下传统防护措施施工困难、进展缓慢等难题。     

鱼雷主动声引信仿真试验技术探讨

首先介绍了鱼雷主动声引信的工作原理和仿真试验方法;然后给出了仿真试验系统组成、工作原理、系统各部分的硬件设计以及仿真试验流程;构建了一个软硬件结合的仿真试验系统。     

缓凝剂在公路工程中的应用

根据化学成分的不同,缓凝剂可分为无机缓凝剂和有机缓凝剂两种,文章论述了缓凝剂的作用机理及最佳掺量选择,并介绍了施工过程中应注意的问题。     

面向交通安全的车辆间距测试技术研究

基于数字图像处理理论,提出了一种车间距离测试的方法,介绍了边缘增强与形态学处理相结合的图像预处理算法、阈值分割与判定树结合的障碍物检测方法以及反转透视测距计算模型,利用VC 平台编写了测距实验程序并组织了测距试验.试验结果表明,该测距方法简洁有效,能满足智能车辆测距工程需要,是一种可行的前方车辆距离测量方法.     

高速列车横向平稳性主动控制规律研究

提高列车的运行平稳性是机车车辆动力学的研究热点。本文以列车的横向运行平稳性为研究对象,采用面向对象的建模方法,建立了由3节车辆组成的车组横向动力学模型,并将作动器放置在车端构成车端主动悬挂系统。采用轨道不平顺高速谱作为输入,考虑轮轴间时延,运用遗传算法对控制器进行优化设计。研究表明,采用车端主动悬挂系统,运用本文算法,车组的横向运行平稳性得到了提高;当在端部车辆的端部二系悬挂中再并行设置作动器,并采用改进的天棚阻尼器算法后,端部车体的振动得到了有效抑制,整个列车横向运行平稳性进一步得到了改善。     

基于分布式压密传感器的隧道衬砌防脱空主动监测

为解决二次衬砌脱空的问题，实现在浇筑过程中对衬砌脱空的主动监测，结合隧道二次衬砌衬背脱空的成因，研发基于分布式压密传感器的隧道衬砌脱空主动监测系统。该系统由分布式压密传感带、延长线、直显终端及工业电脑组成，具有原理简单、安装便捷等优点。通过在衬砌层间预埋分布式压密传感器，对浇筑过程进行主动监测，结合带模注浆技术，实现对衬砌脱空的精准注浆与快速处治，有效解决隧道衬砌脱空问题。在验证试验中，系统在浇筑过程中共发现2处拱顶空洞，证明该系统对脱空监测的有效性。同时，该系统在国内部分重点铁路线已经取得应用，现场应用情况表明，该系统对二次衬砌拱顶脱空的识别准确率可达到95.5%。     

Design of rollover prevention controller with linear matrix inequality-based trajectory sensitivity minimisation

This paper presents a method to design a rollover prevention controller for vehicle systems. The vehicle rollover can be prevented by a controller that minimises the lateral acceleration and the roll angle. Rollover prevention capability can be enhanced if the controlled vehicle system is robust to the variation of the height of the centre of gravity and the speed of the vehicle. For this purpose, a robust controller is designed with linear matrix inequality-based trajectory sensitivity minimisation. Differential braking and active suspension are adopted as actuators that generate yaw and roll moments, respectively. The newly proposed method is shown to be effective in preventing rollover by the simulation on a non-linear multibody dynamic simulation software, CarSim^®.     

Non-stationary random vibration analysis of three-dimensional train–bridge systems

The quarter car model has been used extensively to study the benefits of active, semi-active and passive suspensions. Despite the evident simplicity of the model, the insights obtained from this model have been found to have counterparts in half- and full-car suspension models. Among the most interesting results of the analysis of the quarter car are the relationships among certain transfer function and invariant points in the frequency response functions. These results are of great interest for the application of linear control techniques to the design of active suspensions and the optimisation of linearised passive suspensions. This paper attempts to show why some of the limitations implied by the model are less absolute than they at first seem.     

A closed-loop dynamic simulation-based design method for articulated heavy vehicles with active trailer steering systems

This paper presents a closed-loop dynamic simulation-based design method for articulated heavy vehicles (AHVs) with active trailer steering (ATS) systems. AHVs have poor manoeuvrability at low speeds and exhibit low lateral stability at high speeds. From the design point of view, there exists a trade-off relationship between AHVs’ manoeuvrability and stability. For example, fewer articulation points and longer wheelbases will improve high-speed lateral stability, but they will degrade low-speed manoeuvrability. To tackle this conflicting design problem, a systematic method is proposed for the design of AHVs with ATS systems. In order to evaluate vehicle performance measures under a well-defined testing manoeuvre, a driver model is introduced and it ‘drivers’ the vehicle model to follow a prescribed route at a given speed. Considering the interactions between the mechanical trailer and the ATS system, the proposed design method simultaneously optimises the active design variables of the controllers and passive design variables of the trailer in a single design loop (SDL). Through the design optimisation of an ATS system for an AHV with a truck and a drawbar trailer combination, this SDL method is compared against a published two design loop method. The benchmark investigation shows that the former can determine better trade-off design solutions than those derived by the latter. This SDL method provides an effective approach to automatically implement the design synthesis of AHVs with ATS systems.