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研究基于CAN总线开发工具CANoe的汽车网络功能配置系统,通过建立CANoe和CAN总线上各ECU节点的通信,实现对汽车各ECU的网络功能配置的读取和写入,以及车辆故障信息诊断和总线信息监控。 相似文献
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文章较系统地对目前汽车CAN总线通讯、工作原理、工作条件、CAN网络的组成进行介绍,简单的介绍了CAN网络在卡车上的应用;并对常见CAN故障码的分析进行阐述,为汽车电气设计人员及售后服务人员维修提供参考。 相似文献
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为了搭建具有多个车辆电控节点及传感器节点的CAN(Controller Area Network)总线网络仿真系统,使用CANOe--MATLAB接口将MATLAB/Simulink强大的建模功能与CANoe完善的总线仿真功能相结合。对带有AT(自动变速器)和发动机进气系统模型的CAN总线网络进行联合仿真。由MATLAB/simulink仿真发动机进气瞬态过程、AT两参数控制策略,由CANoe仿真CAN总线网络通信,验证两个节点之间的联合控制的实时性和准确性。结果表明,由CANoe及MATIAB/Simulink搭建的联合仿真系统对汽车多节点的综合控制和CAN总线系统的仿真提供了更加便捷的方法。且具有很强的扩展性。 相似文献
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由于现代汽车技术大幅度提高,越来越多的电子控制器应用于汽车中,控制单元数量的增多导致交互的信息增多,这样就促使越来越多的厂家选择CAN总线.相应的关于CAN总线测试技术也不断更新.基于CANoe软件和CANCase接口卡、VT System板卡构建了一个CAN总线网络自动化测试平台.通过CANoe软件仿真测试节点、TAE软件编写自动化测试脚本和VT System板卡,实现对某厂家的车身控制模块(BCM)的OSEK网络自动化测试,减少测试时间,提高测试效率. 相似文献
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用CANoe建立汽车仪表CAN通讯测试系统的软硬件构成。通过该测试系统模拟汽车上传输到仪表里的各种信号,来测试仪表的所有功能。 相似文献
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摘要:故障诊断技术是汽车技术研究的热点之一,由于电动助力转向系统(EPS)和半主动悬架系统(SAS)已成为转向和悬架机构的发展方向,文章基于VB和SQLServer软件平台开发出底盘EPS与SAS故障诊断系统..利用专家系统的智能诊断功能,根据故障现象的观察和信号采集进行问诊操作,快速分析和查明原因并显示出故障原因与解决方法,通过故障诊断实例与实际故障的对比表明,开发的故障诊断系统能够对EPS与SAS的故障进行正确的诊断,从而为汽车底盘系统的故障诊断探索出一种有效和可行的方法。, 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(4):465-495
This paper describes how observer-based techniques for intelligent fault detection were applied to monitoring an active suspension control system in an experimental articulated heavy vehicle. The aim was to define a practical method for detecting faults, taking into account the nonlinearities of the vehicle. The experimental vehicle was divided conceptually into subsystems, namely the passive dynamics of the trailer, the dynamics of the hydraulic actuators, and the expected response of the closed-loop system. A linear dynamic model was designed for each subsystem. A fault detection observer was then designed for each dynamic model. The observer feedback gains were chosen to optimise estimation by the observer residual of specified errors on the output measurements. The observer residuals were then normalised and combined logically to provide a fault diagnosis. The performance of the fault detection scheme is demonstrated in the case of sensor faults and changes in the operation of the active control system. 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(6):847-873
Reliability of the railway vehicle suspension system is of critical importance to the safety of the vehicle. It is very desirable to monitor the health condition and the performance degradation of the suspension system online, which offers the important information of the suspension system and is critically important for the condition-based maintenance rather than scheduled maintenance in the future. Advanced fault diagnosis method is one of the most effective means for the health monitoring of the suspension system. In this paper, taking the lateral suspension system as an examcple, the fault isolation issue for different component faults occurring in the suspension system is concerned. The sensor configuration for obtaining the vehicle state information and the mathematical model for the lateral suspension system are presented. Four fault features in the time domain and three fault features in the frequency domain are used for each sensor signal. Three different methods, Dempster–Shafer (D–S) evidence theory, Fisher discrimination analysis (FDA) and support vector machine (SVM) techniques are applied to the fault isolation problem. Simulation study is carried out by means of the professional multi-body simulation tool, SIMPACK. The simulation results show that these methods can isolate the considered component faults effectively with a high accuracy. The D–S evidence-based fault isolation approach outperforms the other two methods. 相似文献
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汽车电气系统测试除了要测试车身电器基本的功能外,还必须要测试控制器的通信接口和I/O接口在发生故障时的情况。本文采用Vector公司的CANoe软件以及VT硬件板卡构建了一个汽车电气自动测试系统,结合装有实车相关电器零部件的Labcar台架,通过自动测试系统的故障自动注入,可以实现对某款轻型客车的仪表(IPK)和车身控制器(BCM)功能的自动测试。 相似文献
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远程诊断系统让主机厂在后台得到并分析车辆售后相关数据,并为车主提供远程服务,其依赖于车辆通信模块和全车控制器的协作。Vector总线开发工具CANoe可以实现虚拟节点和真实节点相结合的仿真。利用该工具,将整车部分控制器和虚拟控制器相结合,搭载远程诊断测试平台。通过测试平台,可以在整车项目前期,对远程诊断的功能进行验证,提高整车开发效率,同时能够同步协助智能互联IT平台的开发工作。 相似文献