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1.
DF8B型机车逻辑控制单元设计 总被引:4,自引:4,他引:0
从DF8B LCU功能需求出发,介绍了MVB与CAN总线两种通信网络特点,并对其性能进行比较,重点是MVB方案的LCU功能、硬件系统组成及软件设计。DF8B LCU简化了机车线路,提高了系统可靠性,完全满足机车性能要求。 相似文献
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An interactive modelling approach is developed to solve the practical problem of bus route network design. Possible bus routes are identified with facilities which can be located. Zones or pairs of zones in the urban area are identified with customers who will be allocated to the established facilities. It is shown that the classical Set Covering Problem is useful under the assumption of fixed demand; the Simple Plant Location Problem is effective under the assumption of demand which is sensitive to the level of bus service provided. 相似文献
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伴随汽车智能网联发展,车辆电气网络架构行业趋势由1~2路CAN总线网络快速演变为7~8路CAN总线与4~5路百兆以太网相结合的融合网络架构。其中网关作为车辆网络的数据交互中心,提供了各网络之间的无缝通信,并需要以极低的延迟将这些数据进行可靠传输,这对低成本网关是一个巨大的挑战。提出了一种基于车载融合网络下低成本网关路由软件缓存区的设计方法,以路由软件缓存区去配合CAN控制器和以太网Switch硬件缓存区,设计中断式报文存储发送进程,将收到的数据实时发送到硬件发送缓存区,当硬件发送缓存区已满,则将报文存储到软件缓存区中。通过与软硬件缓存区的这种联动方式,能够实时的接收报文,保证报文不丢帧;也能够在目标总线负载率较大时,避免漏发报文以及保证发送报文周期。 相似文献
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Bus Priority Using pre-signals 总被引:2,自引:0,他引:2
The need to provide efficient public transport services in urban areas has led to the implementation of bus priority measures in many congested cities. Much interest has recently centred on priority at signal controlled junctions, including the concept of pre-signals, where traffic signals are installed at or near the end of a with-flow bus lane to provide buses with priority access to the downstream junction. Although a number of pre-signals have now been installed in the U.K., particularly in London, there has been very little published research into their design, operation and optimisation. This paper addresses these points through the development of analytical procedures which allow pre-implementation evaluation of specific categories of pre-signals. The paper initially sets out three categories of pre-signal, which have different operating characteristics, different requirements for signalling and different impacts on capacity and delay. Key issues concerning signalling arrangements for these categories are then discussed, together with a summary of the analytical approach adopted and the assumptions required. Equations are developed to allow appropriate signal timings to be calculated for pre-signalised intersections. Further equations are then developed to enable delays to priority and non-priority traffic, with and without pre-signals, to be estimated with delay being taken here as the key performance criterion. The paper concludes with three application examples illustrating how the equations are applied and the impacts of pre-signals in different situations.The analyses confirm the potential benefits of pre-signals, where these signals apply to non-priority traffic only. Where buses are also subject to a pre-signal, it is shown that disbenefits to buses can often occur, unless bus detectors are used to gain priority signalling. 相似文献
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