共查询到19条相似文献,搜索用时 156 毫秒
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一、多路传输系统 毕加索(2.0)自动变速器车型的各个控制单元之间的通讯在以下3个多路传输网络上得以实现。1.CAN网络(如图1所示) 相似文献
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雪铁龙C5轿车是法国雪铁龙公司的新一代主流产品。介绍了应用在雪铁龙C5轿车上的CAN数据总线的特点、组成与结构,CAN数据总线的传输原理与过程,以及BSI智能服务器(网关)的组成与功能。另外,介绍了CAN网络的检修。 相似文献
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东风雪铁龙公司于2003年5月投放市场的赛纳轿车装备了多路传输系统。所谓多路传输系统,就是指在一条数据线上传递的信号可以被多个系统共享,从而最大限度地提高系统整体效率,充分利用有限的资料。赛纳轿车多路传输系统使用了两个通讯协议:VAN(Vehicle Area Network)汽车区域网络和CAN(Controller Area Network)控制器区域网络。目前,赛纳轿车上有三个多路传输网络:CAN网络、VAN舒适网络、VAN车身1网络。CAN网络连接发动机控制单元、自动变速器控制单元,其传输速率较高,达250kb/s,其结构如图1所示;VAN舒适网络管理各种舒适性功能… 相似文献
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分布式光纤传感器用于连续配筋混凝土路面健康监测的试验研究 总被引:1,自引:0,他引:1
介绍了一种先进的分布式光纤传感器技术。即布里渊光时域反射计(BOTDR)。在连续配筋混凝土路iN(CRCP)中布置了BOTDR分布式光纤传感系统,对路面板中连续钢筋和混凝土应变进行实时监测。研究结果表明,BOTDR在公路桥梁等一些土木工程结构的健康监测中具有重要的应用前景。 相似文献
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采集太阳光照明系统已是各国竞相研究的热点。介绍太阳光光纤照明系统研究进展,结合太阳光光纤照明与隧道照明的特点,分析太阳光光纤照明系统应用于隧道照明的可行性。指出将太阳光光纤照明与隧道照明相结合,降低隧道出、入口段加强照明能耗是可行的,并可解决隧道洞口视觉问题,实现隧道洞口亮度与洞外环境亮度同步变化。 相似文献
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The controller area network (CAN) protocol is widely used for in-vehicle network (IVN) systems, and many automotive companies
also use the CAN in chassis network systems. However, the increasing number of electronic control units (ECUs) dictated by
the need for more intelligent and fuel-efficient functions requires an IVN system with a greater transmission capacity and
less network delay. Automotive companies have tried several approaches such as segmenting CAN systems and developing time-triggered
protocols. This paper presents a practical method for increasing the transmission capacity and reducing the network delay
in CAN systems using dual communication channels with a traffic-balancing algorithm based on Kalman prediction to forecast
the traffic on each channel and allocate frames to the one that is most appropriate. An experimental testbed using commercial
microcontrollers with two or more CAN protocol controllers was used to demonstrate the feasibility of the Kalman traffic-balancing
algorithm. Experimental results show that the traffic-balancing CAN system with Kalman prediction reduced the transmission
delay of all priority messages compared to that of a simple method, such as a channel-switching CAN, without sacrificing the
performance for high-priority messages. 相似文献
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简要介绍了光纤检测技术的基本原理,并结合正在修建的地铁车站,对光纤检测技术应用于地铁工程进行了介绍,对这一新型的检测技术应用于国内地铁工程做了一些有益的探讨。 相似文献
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Node-based scheduling method for easy migration from CAN to FlexRay in in-vehicle networking systems
As vehicles become more intelligent, in-vehicle networking (IVN) systems such as controller area network (CAN) are essential for the convenience and safety of drivers. To expand the applicability of IVN systems, attention is currently being focused on chassis networking systems that require increased network capacity and real-time capabilities. FlexRay was developed to replace CAN protocol in chassis networking systems, to remedy the shortage of transmission capacity and unsatisfactory real-time transmission delay of conventional CAN. However, FlexRay network systems require a complex scheduling method, which is a barrier to their implementation as chassis networking systems. In particular, if we want to migrate from a CAN network to a FlexRay network using the well-defined CAN message database, which has been specifically constructed for chassis networking systems by automotive vendors, a new type of scheduling method is necessary to reduce scheduling efforts during the software development process. This paper presents a node-based scheduling method for easy migration from a CAN network to a FlexRay network system. To demonstrate the feasibility of the technique, its performance is evaluated in terms of various software complexity indices. 相似文献
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S. Lee D. H. Lee M. H. Kim K. C. Lee 《International Journal of Automotive Technology》2010,11(4):525-531
The controller area network (CAN) is the dominant protocol for in-vehicle network (IVN) systems because it provides bounded transmission delay among electronic control units (ECUs) at data rates between 100 Kbps and 1 Mbps. Many automotive companies have chosen the CAN protocol for their chassis network system of intelligent vehicles. However, the increasing number of ECUs in intelligent vehicles and the need for more intelligent functions require a network system with more network capacity and real-time capability. As one approach to enhance the network capacity of a CAN system, this paper introduces a CAN system with dual communication channels. This paper also presents a traffic-balancing algorithm that predicts the traffic of each channel and allocates frames to the most appropriate channel. An experimental testbed using commercial off-the-shelf microcontrollers with two CAN controllers was used to demonstrate the feasibility of the traffic-balancing algorithm. 相似文献