共查询到18条相似文献,搜索用时 375 毫秒
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汽车性能开发作为在汽车项目开发过程中一项重要的开发内容,已经日益受到国内外汽车厂家的重视。本文首先对汽车性能和汽车性能开发的概念进行了介绍,对汽车性能主要的开发内容和过程进行了说明。同时对整车性能集成和管控进行了介绍和说明,重点对整车性能目标管理、计划管理、问题管理、验证管理、日常管理、节点评审管理进行了具体介绍。最后对汽车性能开发及整车性能集成和管控的重要性进行了说明,并对其应用前景进行了探讨。 相似文献
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整车集成正向开发是一个汽车企业研发能力和水平的表现,客观科学地比较不同车企之间的整车集成正向开发价值能力具有指导意义。根据整车集成正向开发的工作内容,采用了V字形正向开发流程并作出了修正,定义了评价整车集成正向开发价值能力的9个一级指标和33个二级指标,构建了整车集成正向开发价值能力评价模型,并且基于该模型,对自主品牌7个不同车企的整车集成正向开发价值能力进行了量化对比。研究结果表明,产品策划权重系数最大,对整车集成正向开发价值能力的贡献最大。从综合水平上看,车企J的综合表现最优,在产品策划、项目管理、整车性能集成和整车功能定义方面有明显的优势,且没有明显的短板指标;其他车企因为短板指标影响了综合得分。 相似文献
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众所周知,迫于能源危机的日益加剧,可替代的新能源汽车应运而生。汽车市场近几年逐渐涌现大量新能源汽车。面对新的汽车类型,研发团队在开发过程中也将面临巨大的改变和挑战。然而面对挑战也是机遇,汽车研发人永远不缺乏攻坚精神。随着新能源汽车的开发经验越来越多,逐渐总结出一些新能源汽车独特属性的研发经验。本文针对纯电车型整车性能集成技术应用管理进行探讨,对于汽车性能开发具有深远的意义。 相似文献
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数字样机(DMU)在乘用车开发中有着广泛应用。在整车总布置工作中,运用DMU可以实现整车几何、功能、性能上的验证。通过改进DMU工作方法,并与整车开发流程相结合,提高了整车开发质量,有很好的实际指导意义。 相似文献
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本文简略从概念界定以及开发思路两方面内容着手阐述了汽车性能开发的相关内容,并对整车性能集成与管控进行了详细分析,旨在为相关人员提供借鉴意义,进而提升汽车项目整体开发的水平。 相似文献
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车辆动力学性能开发包括性能目标设定、目标分解、优化设计、底盘调校,逐渐向目标达成逼近,开发结束后实现目标达成。性能目标分解即指标分解,用简单有物理意义的理论公式关联整车指标与总成指标,将整车的客观性能指标分解至系统特性,是整车性能目标达成的关键环节,在性能开发中承上启下,是各主机厂的核心技术。性能指标分解正常在车辆开发初期,用于指标分解的模型应采用尽可能少的建模参数,建模分析迅速且模型能明确表达系统参数对整车性能的影响规律。ADAMS或CarSim模型,由于模型结构过于复杂,不适用于车辆性能的指标分解。本文建立了用于性能指标分解的模型,并基于此模型研究底盘动力学操稳转向性能指标的分解及应用方法,为车辆动力学性能开发工作提供理论指导。 相似文献
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J. -S. Jo S. -H. You J. Y. Joeng K. I. Lee K. Yi 《International Journal of Automotive Technology》2008,9(5):571-576
The Vehicle stability control system is an active safety system designed to prevent accidents from occurring and to stabilize
dynamic maneuvers of a vehicle by generating an artificial yaw moment using differential brakes. In this paper, in order to
enhance vehicle steerability, lateral stability, and roll stability, each reference yaw rate is designed and combined into
a target yaw rate depending on the driving situation. A yaw rate controller is designed to track the target yaw rate based
on sliding mode control theory. To generate the total yaw moment required from the proposed yaw rate controller, each brake
pressure is properly distributed with effective control wheel decision. Estimators are developed to identify the roll angle
and body sideslip angle of a vehicle based on the simplified roll dynamics model and parameter adaptation approach. The performance
of the proposed vehicle stability control system and estimation algorithms is verified with simulation results and experimental
results. 相似文献
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J. Han O. Heo M. Park S. Kee M. Sunwoo 《International Journal of Automotive Technology》2016,17(3):483-491
For robust vision-based forward collision warning (FCW) and autonomous emergency braking (AEB) systems, not only reliable detection performance including high detection rate and low false positives but also accurate measurement output of a target vehicle is required. Especially, in order to reduce false alarm or activation of FCW/AEB systems, the systems require the precise measurement output of a target object, such as position, velocity, acceleration, and time-to-collision (TTC). In this study, we developed a measurement estimation algorithm of a target vehicle using a monocular camera. This method estimates two cases of vehicle widths for a target vehicle by using the detected lane information and a pin-hole camera model. After that, the position, velocity, acceleration, and TTC of a target vehicle are estimated by using a Kalman filter for the each estimated vehicle width. To improve robustness, the both estimation results using the detected lane information and the pinhole camera model are fused. This estimation algorithm was evaluated and compared with the state-of-the-art technology. As a result, the proposed measurement output estimation method can improve the performance of the FCW/AEB systems. 相似文献
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