高速铁路软土路基施工过程中整体稳定性分析

随着我国经济建设的不断发展以及运输系统要求的提高,大量高速铁路在我国广泛修建。然而,在软土区域修建高速铁路,路基施工过程中的整体稳定性一直备受关注。结合工程实例,借助有限元分析的方法,建立三维模型,对路基施工过程整体稳定性进行分析,研究方法及结论能为类似工程设计及施工提供参考依据。     

榆佳高速公路工程综合管理系统在过程管理中的实践与应用

对榆佳高速公路综合管理系统的功能以及在实践中的应用做了详细阐述,信息化管理有助于提高项目管理效率、提升形象、增进沟通、降低成本,从而提高企业核心竞争力.信息化管理推进了项目建设的规范化运作,有助于精品工程的实现.     

Fuzzy and adaptive fuzzy control for the automobiles’ active suspension system

Two typical criteria for good vehicle suspension performance are their ability to provide good road handling and increased passenger comfort. The main disturbance affecting these two criteria is terrain irregularities. Active suspension control systems reduce these undesirable effects by isolating car body motion from vibrations at the wheels. This paper describes fuzzy and adaptive fuzzy control (AFC) schemes for the automobile active suspension system (ASS). The design objective is to provide smooth vertical motion so as to achieve the road holding and riding comfort over a wide range of road profiles. The efficacy of the proposed control schemes is demonstrated via simulations. With respect to the optimal linear quadratic regulator (LQR), it is shown that superior results have been achieved by the AFC.     

Enhancing grey prediction fuzzy controller for active suspension systems

A grey prediction fuzzy controller (GPFC) was proposed to control an active suspension system and evaluate its control performance. The GPFC employed the grey prediction algorithm to predict the position output error of the sprung mass and the error change as input variables of the traditional fuzzy controller (TFC) in controlling the suspension system to suppress the vibration and the acceleration amplitudes of the sprung mass for improving the ride comfort of the TFC used; however, the TFC or GPFC was employed to control the suspension system, resulting in a large tire deflection so that the road-holding ability in the vehicle becomes worse than with the original passive control strategy. To overcome the problem, this work developed an enhancing grey prediction fuzzy controller (EGPFC) that not only had the original GPFC property but also introduced the tire dynamic effect into the controller design, also using the grey prediction algorithm to predict the next tire deflection error and the error change as input variables of another TFC, to control the suspension system for enhancing the road-holding capability of the vehicle. The EGPFC has better control performances in suppressing the vibration and the acceleration amplitudes of the sprung mass to improve the ride quality and in reducing the tire deflection to enhance the road-holding ability of the vehicle, than both TFC and GPFC, as confirmed by experimental results.     

A novel fuzzy logic correctional algorithm for traction control systems on uneven low-friction road conditions

The traction control system (TCS) might prevent excessive skid of the driving wheels so as to enhance the driving performance and direction stability of the vehicle. But if driven on an uneven low-friction road, the vehicle body often vibrates severely due to the drastic fluctuations of driving wheels, and then the vehicle comfort might be reduced greatly. The vibrations could be hardly removed with traditional drive-slip control logic of the TCS. In this paper, a novel fuzzy logic controller has been brought forward, in which the vibration signals of the driving wheels are adopted as new controlled variables, and then the engine torque and the active brake pressure might be coordinately re-adjusted besides the basic logic of a traditional TCS. In the proposed controller, an adjustable engine torque and pressure compensation loop are adopted to constrain the drastic vehicle vibration. Thus, the wheel driving slips and the vibration degrees might be adjusted synchronously and effectively. The simulation results and the real vehicle tests validated that the proposed algorithm is effective and adaptable for a complicated uneven low-friction road.     

机车调车作业安全的多层次模糊综合评价

以大连铁路分局某货运站机车调画作业安全为例，动用模糊数学理论，在原有的一级评价模型的基础上，建立了多层次安全评价模型，该模型克服了一级评价模型在处理复杂系统过程， 因评价因素我，权系数很小，经过Ｆｕｚｚｙ矩阵的复合运算丢失许多有作用信息的弱点，     

基于模糊时间Petri网的列车运行时间不确定性问题的处理

定义一种应用于铁路列车运行系统的模糊时间Petri网；针对列车运行时间存在的不确定性，该Petri网引入了4个模糊集理论函数：模糊时间片、模糊使能时间、模糊发生时间和模糊延迟，来处理时间的不确定性问题；能够对列车运行过程中的时间不确定性问题进行定量分析，可以有效应用于列车交会、列车终到时间、列车运行计划调整的分析等；其相对于已有的方法具有精确分析、计算简单、简化系统、便于系统集成的特点。     

TMIS工程的实施管理

介绍TMIS工程实施管理的概念、目标和原则,分阶段总结工程实施管理的主要内容,并对未来的铁路信息化建设做出简要展望.     

浅析建设项目全过程工程造价控制

工程造价的控制贯穿于项目周期全过程,与基本建设的每一个阶段都紧密相连。本文从建设项目全过程的角度分析了投资决策、设计、招投标、施工以及竣工各阶段造价控制的方法以及应注意的问题,并通过实际案例来说明科学的造价管理工作对降低建筑项目工程造价的重要作用。     

游艇码头设计

目前国内游艇码头的设计尚处于起步阶段,缺乏建设经验和相关标准、规范。游艇码头技术研究是在设计实践和国内、外调研、考察的基础上完成的。本文简述了游艇码头的选址、总平面布置、工艺系统、水工结构的一般要求和主要参数的确定,供同类码头设计时参考、借鉴。