郑西客运专线湿陷性黄土填料水泥改良及填筑压实工艺研究

研究目的:确定郑西客运专线湿陷性黄土填料的改良技术和填筑压实工艺。研究结果:水泥改良湿陷性黄土最大干密度随时间呈衰减趋势;水泥改良湿陷性黄土的压实厚度严格控制在30 cm以内,松铺系数为1.1～1.2;水泥改良陷性黄土不适合采用强振碾压,一般来说静压的施工效果较好,碾压遍数控制在4～5遍;水泥改良湿陷性黄土的含水率对压实度影响较大,含水量偏差应控制在-0.5%～ 1.5%;尽量缩短水泥改良土从拌和到碾压完成的时间,遵循“三快一密实原则“:快速摊铺、快速整平、碾压密实、快速检测,确保碾压和检测在水泥初凝前完成。     

基于和谐理念的出租车客运系统发展研究

从行业管理角度出发。采用和谐理念．分析当前出租车客运系统的“负效应”。探讨其表现形式和成因。通过对目前出租车客运系统和谐状态的判断。指出相关的和谐要点和简单措施。     

模糊数据融合技术在柴油机状态监测中的应用研究

针对传统柴油机状态监测的不足,采用模糊数据融合的方法,对多传感器测得的数据进行融合处理,实现柴油机故障的预警及柴油机状态的监测。     

实测数据量大小对疲劳强度评估结果影响的研究

提速机车和客车的运用特点是全寿命时间长、运行线路条件相对固定。如何经济、有效地对结构疲劳强度进行评估是很重要的工作。首先介绍了疲劳强度评估的方法;其次,按不同的里程从全程数据中抽取数据并计算等效应力幅;最后通过对比分析,得出实测数据量大小对疲劳强度评估结果的影响程度,提出了经济、有效的采样方案。     

基于TCP/IP拥塞控制的算法研究

在WPAN上使用TCP的关键在于拥塞控制，根据TCP的拥塞控制机制，通过分析拥塞控制的闭环控制原理、TCP／IP拥塞控制所使用的典型技术，研究TCP／IP拥塞控制在无线网上应用的算法。     

旅客列车发车时间域优化研究

在大量问卷调查的基础上,根据旅客对不同到发时间域选择的偏好,确定了各发车时间域旅客出行的方便系数。利用目标规划原理,以旅客出行方便程度最大为目标,构造了三级控制策略。在考虑客运站到发线能力,以及旅客列车必须在合理的时间域发车等约束条件下,建立旅客列车发车时间域的目标规划模型。利用该目标规划模型,可根据旅客列车实际运行的需要,通过变化控制策略和赋予各目标的优先因子,实现对列车发车时间域的优化。根据模型约束目标正负偏差变量,计算了各级控制策略实现程度系数。最后,以太原站始发旅客列车为实例,利用变换方案对该目标规划模型的运用进行了分析,并将目标规划优化结果和传统确定发车时间域的结果以及指派模型优化结果进行比较分析。     

加强领导落实责任认真做好青藏铁路建设用地管理工作

铁路建设用地验收交接的技术性、专业性、政策性较强,涉及面广。青藏铁路公司建设管理部采取“结合实际、突出重点、全面指导、整体推进”的做法,加强与地方政府土地管理部门的联系,参加建设用地的征用和施工用地的管理工作;主动与建设单位沟通,共商建设用地管理的对策;统一竣工资料的标准,保证竣工资料的齐全、规范;牢固树立为运输生产服务的理念,依法、规范、科学地管理铁路建设用地,保证建设用地交接完整、准确、规范地进行。     

Japanese perspective of driver information systems

A perspective view of of Japanese R&D activities of Driver Information Systems is given from the standpoint of developing joint projects by public and private sectors. First, a brief history of the R&D activities is illustrated from above mentioned standpoint. Then, two major projects, AMTICS and RACS, and the social backgrounds of these projects are explained. In order to give a clear idea of both projects some technical details are treated.Based on the history and the present status of the developments, the basic design conceptions of Japanese Driver Information Systems are explained and several factors or reasons which have influenced to the design conception are discussed. Then, the promoting systems of the R&D activities are generally explained and present status of the projects and future problems in developing more advanced systems are also handled. A brief discussion on the establishment of international standard is also mentioned as a final comment.     

Using longitudinal methods for analysis of a short-term transportation demonstration project

This paper documents an application of panel, or longitudinal data collection in the evaluation of a TSM (Transportation Systems Management) demonstration project. The project was a four-week demonstration of staggered work hours in downtown Honolulu during February–March 1988. The 4 wave panel survey elicited commuting experiences of approximately 2,000 downtown employees at two week intervals before and during the project. The sample involved both employees who participated in the project by shifting their work hours, and those who did not. The panel survey was augmented by floating-car observations of travel times on major routes into downtown Honolulu on the same four dates.The purpose of the analysis was to determine whether employee commute times were affected, and if so, how these changes were distributed among various employee segments. Two methods were used. First, travel time changes were estimated using paired t-tests. Second, regression equations were used to estimate project time savings as a function of trip length, route, and location of residence. Results show that travel time savings due to the project were typically small, less than ten percent. Nonparticipants experienced greater savings than participants, and some segments of participants experienced longer travel times during the project. The panel method proved to be an effective way to measure project travel time impacts and shows that the method is appropriate in short time applications.Presented at the Annual Meeting of Transportation Research Board, January 7–11. 1990, Washington, D.C.