基于Eclipse的列车显示器集成开发平台的实现

Eclipse是-个可扩展的集成开发框架,其最基本的扩展机制就是新的插件可以通过扩展点向已有插件中加入新的处理元素.介绍了Eclipse平台和CDT插件,分析了列车显示器集成开发环境的功能,并阐述了集成开发平台实现的关键技术.     

固定电话超长话单现象分析和处理

通过分析中兴交换机呼叫转接业务功能特性和用户电话呼叫业务行为，找出非正常的超长话单形成原因，得出解决超长话单问题的方法。     

计算高速列车车内压力的热力学模型

运用热力学基础知识，建立了一种计算高速列车通过隧道时车内压力变化的热力学模型，它采用当量漏气面积表示车辆气密性，具有物理意义明确的特点。在相同的计算条件下，将其与现有能够计算车内压力的2种模型——经验模型和流动模型进行了车内压力计算的对比分析，结果表明热力学模型用于高速列车车内压力计算是可行的。     

近代高速列车技术进展

论述了近代高速列车的发展趋势是运行速度不断提高，RAMS不断增长，降低LCC，动力装置配置采用动力分散式；介绍了近代高速列车采用的新技术、新结构，其中包括大功率交流传动系统、高速转向架、高速制动技术、高速车体技术、车内环境及排污技术、列车监控与诊断技术等；最后阐明了近代高速列车维修现状及发展趋势。     

货车制动梁常见故障的分析及对策

通过对运用中货车制动梁出现的故障进行分析,提出了防止故障的措施和建议。     

大秦线运煤列车煤扬尘防治技术研究

针对大秦铁路运煤列车煤扬尘特点,研制以合成高聚物POL1为基料复配而成的粘结型抑尘剂。运煤列车对抑尘剂强度、时间有效性要求不高,考虑环保要求和成本,配方的基本组成为基料、增塑剂、填料。分析了基本组分的特性、配比对抑尘剂物理指标的影响。对该抑尘剂进行了抗低温、抗雨淋性能试验,汽车模拟试验。结合现场调查结果,说明隧道模拟试验结果的正确性,并模拟分析了隧道煤扬尘污染分布,对该抑尘剂的抑尘效果进行验证,在上述试验基础上,进行列车动态试验(生产性中试)试验。结果表明,采用该抑尘剂,运煤列车沿线扬尘削减率在95.1%~99.6%之间,隧道中扬尘削减率在93.8%~97.8%之间。抑尘剂性能及防治效果、喷淋量均可达到实际生产要求。     

三茂内燃摆式动车组内装及部件设计

阐述了三茂内燃摆式动车组的内装及部件结构设计理念,并介绍了其结构创新情况。     

Model predictive driving simulator motion cueing algorithm with actuator-based constraints

The simulator motion cueing problem has been considered extensively in the literature; approaches based on linear filtering and optimal control have been presented and shown to perform reasonably well. More recently, model predictive control (MPC) has been considered as a variant of the optimal control approach; MPC is perhaps an obvious candidate for motion cueing due to its ability to deal with constraints, in this case the platform workspace boundary. This paper presents an MPC-based cueing algorithm that, unlike other algorithms, uses the actuator positions and velocities as the constraints. The result is a cueing algorithm that can make better use of the platform workspace whilst ensuring that its bounds are never exceeded. The algorithm is shown to perform well against the classical cueing algorithm and an algorithm previously proposed by the authors, both in simulation and in tests with human drivers.     

新型磁浮式轨道巡检车制动盘温度场及热应力场分析

摘要;采用ANSYS10.0有限元软件,建立了制动盘三维对称循环有限元模型,对实心、开通风槽和开通风槽及散热孔3种不同结构类型的灰铸铁材料的制动盘进行温度场和热应力场的分析.计算比较制动初速度为60 km/h时紧急制动情况下不同结构类型制动盘的热力学特性.仿真结果表明:3种不同结构的制动盘温度分布趋势和应力分布趋势基本...     

Development of a new time domain-based algorithm for train detection and axle counting

This paper presents an innovative train detection algorithm, able to perform the train localisation and, at the same time, to estimate its speed, the crossing times on a fixed point of the track and the axle number. The proposed solution uses the same approach to evaluate all these quantities, starting from the knowledge of generic track inputs directly measured on the track (for example, the vertical forces on the sleepers, the rail deformation and the rail stress). More particularly, all the inputs are processed through cross-correlation operations to extract the required information in terms of speed, crossing time instants and axle counter. This approach has the advantage to be simple and less invasive than the standard ones (it requires less equipment) and represents a more reliable and robust solution against numerical noise because it exploits the whole shape of the input signal and not only the peak values. A suitable and accurate multibody model of railway vehicle and flexible track has also been developed by the authors to test the algorithm when experimental data are not available and in general, under any operating conditions (fundamental to verify the algorithm accuracy and robustness). The railway vehicle chosen as benchmark is the Manchester Wagon, modelled in the Adams VI-Rail environment. The physical model of the flexible track has been implemented in the Matlab and Comsol Multiphysics environments. A simulation campaign has been performed to verify the performance and the robustness of the proposed algorithm, and the results are quite promising. The research has been carried out in cooperation with Ansaldo STS and ECM Spa.