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131.
132.
框架实现了代码重用、设计重用、以及分析重用,从而大幅度降低了开发的成本,提高了生产效率和产品质量。因此,对框架的研究和实践越来越引起学术界和产业界的高度重视。本文通过对某电网调度系统的深入调研,利用领域工程知识,设计了一个基于J2EE平台的综合应用框架,并实现了部分功能。 相似文献
133.
应答器报文在CTCS中的定义与应用 总被引:2,自引:0,他引:2
列车运行控制系统的应用已经比较普遍,各种速度的铁路都有运用,但在高速铁路上的应用更能显示出其高水平和具有代表性。高速铁路正在欧洲和亚洲快速发展,已通车或正在建设中的高速线路多达十几条,这对于推动一个国家的经济发展有着深刻的影响。尽管各高速铁路采用的列车运行控制系统都不尽相同,但它们却有着基本相似的工作原理,扼要阐述列控中心的工作原理,并对高速列车运行的控制信息——报文做进一步举例说明。 相似文献
134.
介绍了一种高速铁路CTC中心电源系统冗余方案,并详细阐述了机房稳定电源提供、电源屏及UPS、双电源设备、单电源设备、电源监测系统、电源系统检修的具体方案。 相似文献
135.
我国Ⅲ、Ⅳ级铁路有配备列控系统的需求.ITCS和ERTMS Regional是适合Ⅲ、Ⅳ级铁路的2种列控系统,介绍了它们的结构和功能特点. 相似文献
136.
文章针对当前国有企业绩效管理中常见问题,分析存在问题的原因,并结合企业绩效管理实践,提出建立和改善绩效管理体系的对策和建议。 相似文献
137.
The present paper deals with timetable optimisation from the perspective of minimising the waiting time experienced by passengers when transferring either to or from a bus. Due to its inherent complexity, this bi-level minimisation problem is extremely difficult to solve mathematically, since timetable optimisation is a non-linear non-convex mixed integer problem, with passenger flows defined by the route choice model, whereas the route choice model is a non-linear non-continuous mapping of the timetable. Therefore, a heuristic solution approach is developed in this paper, based on the idea of varying and optimising the offset of the bus lines. Varying the offset for a bus line impacts the waiting time passengers experience at any transfer stop on the bus line.In the bi-level timetable optimisation problem, the lower level is a transit assignment calculation yielding passengers’ route choice. This is used as weight when minimising waiting time by applying a Tabu Search algorithm to adapt the offset values for bus lines. The updated timetable then serves as input in the following transit assignment calculation. The process continues until convergence.The heuristic solution approach was applied on the large-scale public transport network in Denmark. The timetable optimisation approach yielded a yearly reduction in weighted waiting time equivalent to approximately 45 million Danish kroner (9 million USD). 相似文献
138.
Rodrigo Mesa-Arango 《智能交通系统杂志
》2014,18(4):327-338
》2014,18(4):327-338
Several transportation problems, such as implementation of truck-only lanes, require understanding the interaction of heterogeneous dynamic traffic flows in order to provide accurate solutions. System-optimal dynamic traffic assignment can be modeled using a network loading procedure based on the cell transmission model, that is, the hydrodynamic wave model, and solved by linear programming. However, this framework cannot handle the asymmetric integration between the flow of trucks and cars. This article presents a novel formulation for network loading in system-optimal dynamic traffic assignment considering car–truck interactions. By using an embedded cell transmission model, this formulation incorporates a set of assumptions related to the kinematic characteristics of the flow of cars, trucks, and their interactions that can be solved using linear programming. We present numerical results supporting our modeling assumptions. Likewise, the observed emergent behavior captures the car–truck interactions accurately and indicates that minimum system-optimal travel time is obtained by encouraging cars to use highways with shorter distances. 相似文献
139.
In this paper, we propose an agent-based simulation approach that is capable of simulating the flow of passengers on board buses and at bus stops. The intention is that it will be applied during vehicle development to analyze how vehicle design affects passenger flow, and thus also how it affects system performance such as dwell time. In turn, this could aid the developers in making design decisions early in the development process. Besides introducing the simulation tool itself, the paper explores the realism of the data generated by the tool. A number of passenger flow experiments featuring a full-scale bus mockup and 50 participants were carried out. The setup of these experiments mirrored a number of ‘bus journeys’ (regarding vehicle design, number of passengers boarding/alighting at each stop and so on) that had previously been simulated using the simulation tool. When the data from the simulations were compared with the data from the passenger flow experiments, it could be concluded that the tool is indeed able to generate realistic passenger flows, although with some errors when a large number of passengers board/alight. The simulated dwell times were rationally affected by the tested bus layout aspects. It was concluded that the tool makes it possible to evaluate how variations in bus layouts affect passenger flow, providing data of sufficiently high quality to be useful in early phases of vehicle design. 相似文献
140.