城市轨道交通综合枢纽 信息化设计思路剖析

通过对深圳北站交通枢纽建设项目的案例分 析,结合信息化集成系统的特点,对城市轨道交通综合 枢纽信息化设计的思路进行剖析。提出按照城市轨道 交通综合枢纽总体功能规划、综合枢纽运营管理模式 研究、信息化系统功能设计、信息化系统接口设计的系 统构建思路,并采用层次分析法与德尔菲法构建信息 化系统的评价体系,为其他城市进行交通综合枢纽信 息化系统设计提供参考。     

铁路专用线视频监控系统的研究

介绍一种与车号识别相结合的视频监控系统,描述系统构成和功能.     

铁路延伸客服系统设计方案研究

随着客运专线铁路及电子商务的兴起,延伸铁路客运服务信息系统将为旅客提供更加便捷高效的服务,介绍了延伸旅客服务信息系统的总体方案及设计。     

城市轨道交通电气火灾监控系统应用方案

结合无锡地铁1、2号线中电气火灾监控系统的设计、施工、调试、运营等情况,阐述城市轨道交通电气火灾监控系统的具体设计方案,主要包括系统设置范围的变电所400 V柜及环控电控柜出线;系统预警和报警整定值300 m A和500 m A;系统直接与综合监控系统做通信接口等。另外,还指出城市轨道交通电气火灾监控系统在实际设计和施工过程中需要注意的事项,主要包括在设计中只对故障回路进行检测、报警而不联动故障回路断路器跳闸,建议选择一体式监控探测器并且事先预留安装位置等;在施工中N线需穿过探测器,而PE线则不能穿过探测器等,为后续城市轨道交通电气火灾监控系统的设计和施工提供参考。     

地铁隧道通风系统中组合阀安全性问题的探讨

就地铁隧道通风系统中组合阀安全性问题进行初步探讨,针对国内外对组合阀不同的安全性要求进行分析和比较,指出设立组合阀耐火极限、高温正常工作时间、泄漏量和疲劳强度四个主要指标的必要性。     

城市公共交通用地综合开发若干问题的思考 ——以北京市为例

为推进城市用地与交通的融合发展,提高城市公共交通用地综合开发效率,促进城市公共交通用地综合开发更好地适应城市交通发展需求,采用文献检索法、专家咨询法及实地调研法等开展研究。首先,对北京市客运交通枢纽综合开发、车辆段上盖物业、轨道交通站点综合开发及公交场站用地综合开发四大类城市公共交通用地综合开发项目发展现状进行了剖析。然后,结合规划、建设及投融资等方面存在的主要问题,分析了城市公共交通用地综合开发项目推进困难的症结所在。最后,提出了相关政策建议：推出城市公共交通用地综合开发统一指导意见;优化土地出让政策,最大化利用公共交通用地;创新投融资机制,减轻政府及企业投资压力;搭建市级平台,统筹协调相关工作。     

网络化测控中SVG技术的应用

探讨在网络化测控软件中如何将测试结果曲线进行WEB发布,并结合SVG和XSLT技术实现测试过程的实时图形监测.     

宝马车系诊断设备及电控发动机的重点组成部件

介绍宝马发动机电控系统诊断信息、车间诊断设备、电控发动机的重点组成部件。     

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.