长江中下游航道整治技术问题的几点思考

长江中下游的航道整治目前全面展开,很多技术问题亟待解决,为此结合目前的整治技术进展,对诸如整治河段单元的划分、目标河型的选择、工程区、守护工程功能属性转化、洲头鱼骨坝的作用扩展、汊道分流面、工程的结构型式等问题进行了商榷性讨论,为最终解决这些问题做一些铺垫性思考。     

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。     

一般状态下悬链线方程的应用

建立悬链线方程,分析悬链受力及方程的解法,结合实例运用悬链线方程计算锚链参数,完成工程船在具体海况下的锚泊设备选型。     

基于层次灰色模型的铁路技术创新绩效综合评价

运用技术创新基本理论,结合铁路技术创新实际,从效益(经济、社会)增长、市场状态(市场份额、市场营销)改善和创新主体素质(技术装备水平、管理水平)提高3个方面建立了评价铁路技术创新绩效的多级指标体系。将层次分析法(AHP)和灰色系统理论结合起来建立了层次灰色评价模型(HGM),运用该模型对铁路技术创新绩效分别从整体和分项进行了综合评价,得出:铁路技术创新绩效绩优度为“一般”,其主要原因在于铁路运输市场状态改善中市场份额扩大程度较低。实证分析结果表明:改进层次灰色评价法(层次灰色评价模型)为一种评价铁路技术创新绩效的有效方法。     

波流联合作用下的船舶系泊

通过波流联合作用下开敞式深水码头系泊试验研究成果的分析,阐述了流对系泊船舶的作用性质,波流联合作用下系泊船舶动态特征,缆绳选择及系缆方式,并对试验方法的选取提出了建议。     

变压器换位导线股间短路点的查找与排除

变压器线圈制造过程中经常出现换位(组合)导线有股间短路现象,如何查找短路点并且有效地排除故障显得很重要。本文介绍目前常用的几种短路点的查找和排除方法。     

全国水运货运量预测的灰色系统模型

介绍灰色控制系统的基本理论，并给出了全国水运货运量预测的GM（1，1）模型，可供水运部门制定规划时参考。     

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.