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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(1):279-292
SUMMARY This paper presents current research regarding intra-platoon collision dynamics for rapid decelerations. Measures of ride quality and impact severity are introduced to allow comparisons between different collision scenarios. In this study, the disturbance input to the platoon is assumed to be a rapid braking of the lead vehicle. Several deceleration rates are used to assess the overall platoon behavior and the effect of the intra-platoon collisions on the platoon passengers. The role of the desired headway spacing on preventing the occurrence of intra-platoon collisions and improving rider comfort is discussed. 相似文献
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多车协同驾驶是智能车路系统领域的研究热点之一,可有效降低道路交通控制管理的复杂程度,减少环境污染的同时保障道路交通安全。基于多车协同驾驶控制结构,提出了一种无人驾驶车辆换道汇入的驾驶模型及策略,系统分析了多车协同运行状态的稳定条件。在综合分析无人驾驶车辆换道汇入的协作准则、安全性评估后,基于高阶多项式方法,结合车辆运行特性,通过引入乘坐舒适性的指标函数,设计得到无人驾驶车辆换道汇入的有效运动轨迹。通过研究汇入车辆与车队中汇入点前、后各车辆的运动关系,详细分析车辆发生碰撞的类型和影响因素,给出避免碰撞的条件准则,从而确保无人驾驶车辆汇入过程中多车行驶的安全性和稳定性。基于车辆运动学建立车辆位置误差模型,结合系统大范围渐进稳定的条件,选取线速度和角速度作为输入,应用李雅普诺夫稳定性理论和Backstepping非线性控制算法,设计了无人驾驶车辆换道汇入后的路径跟踪控制器。仿真试验和实车试验结果表明:所设计的换道汇入路径是可行、安全的,控制器具有良好的跟踪效果,纵向和横向的距离误差在15 cm以内,方向偏差的相对误差在10%以内。研究结果为智能车路系统中的多车状态变迁与协同驾驶研究提供了参考,可服务于未来道路交通安全设计和评价。 相似文献
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Jonathan Frankel Graduate Student Luis Alvarez Graduate Student Roberto Horowitz Professor Perry Li 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》1996,26(4):271-299
The IVHS architecture of the California PATH program organizes traffic into platoons of closely spaced vehicles. Platoons are formed and broken up by two longitudinal control maneuvers, the merge and the split. A third longitudinal maneuver, decelerate to change lane, allows a platoon switching from one lane to another to enter its new lane at a safe spacing and speed. The maneuvers, particularly the merge, can be potentially hazardous. In a merge, the cars in the trail platoon are moving faster than those in the lead platoon, while the gap separating the two platoons is smaller than usual. A sudden deceleration by the lead platoon could cause a high-speed collision. If the relative velocities of the merging platoons can be constrained so that they are guaranteed never to collide at a high relative velocity, the merge can be considered safe. A maximum safe velocity for the trail platoon can be found for any given spacing and lead-platoon velocity. This paper presents a merge maneuver in which the velocity of the trail platoon never exceeds the maximum safe velocity. The controller switches among several feedback control laws that keep the velocity of the trail platoon inside a safe region and within comfort limits on jerk and acceleration, under normal circumstances. This merge maneuver can be considered to be the fastest merge strategy mat does not violate bounds on safety and comfort. The controller is also more robust to changes in the vehicles' acceleration capability than those that use a desired open-loop trajectory
The control approach used for the merge maneuver can be applied to the other maneuvers to ensure that they never result in a collision. The switching controllers for the split and decelerate to change lane maneuvers that are safe and yield a more comfortable ride than those that track a timed trajectory are also presented. 相似文献
The control approach used for the merge maneuver can be applied to the other maneuvers to ensure that they never result in a collision. The switching controllers for the split and decelerate to change lane maneuvers that are safe and yield a more comfortable ride than those that track a timed trajectory are also presented. 相似文献
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为了在单车超越车队的过程中缩短超车车辆与车队间通信范围,减少车队通信压力,锁定影响车辆入队的关键车队区块,同时通过将待进入关键区块的车队进行间隙优化调整,为驾驶人提供定制化换道入队引导服务,提出了基于驾驶人超车风格特征参数的车队内信息传输关键区块锁定算法,通过分析影响驾驶人换道入队位置范围的关键因素,将驾驶人换道入队过程分为本车道速度调整过程与入队速度调整过程,利用非参数贝叶斯算法获取驾驶人超车换道特征数据并提出基于关键区块所在车队位置序列的车辆间隙优化调整策略。研究结果表明:超车车辆加速度、与前车预计碰撞时间、与车队相对速度是影响驾驶人换道入队范围的关键因素;通过非参数贝叶斯算法将超车车辆运行数据分类获取的驾驶人换道入队驾驶操作基元,可准确提供驾驶人行为特征关键参数;通过将驾驶人换道特征分为48个子类型,可锁定驾驶人换道入队范围且车队关键区块范围随着超车车辆与车队速度差值不同在各个特征类型上呈现不同变化趋势;针对驾驶人入队特征对待进入车队关键区块的车辆间隙进行优化调整,不仅可以为驾驶人提供可接受的驾驶辅助信息,同时减少了车队间隙产生过程中车辆加速度范围,提升了车队运行的舒适性。 相似文献
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路段上集群智能网联汽车的车队形成机制 总被引:1,自引:0,他引:1
智能网联汽车是解决城市交通问题的关键技术之一,对于未来城市智能交通体系建设有着关键作用。集群的智能网联汽车已经具备了涌现的基本条件,设计科学合理的交互规则,可以实现车辆的自组织,分布式涌现控制。以微观仿真软件VISSIM及C2X模块为研究平台,修改驾驶模型参数,在C2X模块中编程实现3条交互规则:速度一致、尽量靠近、避免碰撞,在仿真软件中构建单车道仿真模型,运行仿真实验,统计车辆在路段上不同距离形成车队情况,利用车头时距分布的熵值来衡量车流的有序性。仿真结果表明,车辆在运行至50s后初步形成车队,随着时间的增加,形成的车队越稳定,车流熵值在路段上随距离增加而减小,说明形成车队后更加有序,在路段上呈现出涌现现象。 相似文献
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双车道公路超车两难区域研究 总被引:1,自引:0,他引:1
基于超车行为分析,提出了双车道公路超车行为的两难区域概念,在该区域内超车车辆既无法完成超车动作又不能在避免与对向车辆相撞前安全避让。应用运动学理论建立了下游车队规模、车速、设计车速与两难区域范围以及安全超车视距之间的关系,发现与超越单车的视距要求相比,超越车队所需的安全视距较大,且随着设计车速、下游车队规模以及车速的增大而增大。并发现当流量或车速较大时,两难区域出现的概率较大,且因驾驶者错误估计引发交通事故的机会增多。最后给出了不同下游车队规模条件下安全超车的速度限制及视距要求,为制定安全行车策略以及道路安全管理提供了理论依据。 相似文献
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Luis Alvarez Roberto Horowitz 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》1999,32(1):57-84
This paper presents the design of a velocity tracking controller for safe vehicle maneuvering in Automated Highway Systems (AHS) in which traffic is organized into platoons of closely spaced vehicles. The notion of safety is related to the absence of collisions that exceed a given relative velocity threshold. In a companion paper, state dependent safety regions for the platoons are designed in such a way that, whenever the state of a platoon is inside these safety regions, it is guaranteed that platoon maneuvering will be safe and follow the behavior prescribed by the finite state machines that control vehicles maneuvers. Velocity profiles inside these safety regions are derived for all the single lane maneuvers and a nonlinear velocity tracking controller is designed to track these profiles. This controller attempts to complete the maneuvers with comfort in minimum time, whenever safety is not compromised. The control schemes presented in this paper were implemented and tested using AHS simulation software. 相似文献
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《国际交通安全学会研究报告》2020,44(4):300-308
The emerging technology of automated vehicles (AV) has been rapidly advancing and is accompanied by various positive and negative potentials. The new technology is expected to affect costs mainly by reducing the number of collisions and travel time, as well as improving fuel efficiency and parking benefits. On the other hand, safety outcomes from AV deployment is a critical issue. Ensuring the safety of AVs requires a multi-disciplinary approach that monitors every aspect of these vehicles. The California Department of Motor Vehicles has mandated that AV collision reports be made public in recent years. This study collected the scanned collision reports filed by different manufacturers that are assessing AVs in California (September 2014 to May 2019). The collected data offers critical information on AV collision frequencies and associated contributing factors. This study provides an in-depth exploratory analysis of the critical variables. We demonstrated a variational inference algorithm for Bayesian latent class models. The Bayesian latent class model identified six classes of collision patterns. Classes associated with turning, multi-vehicle collisions, dark lighting conditions with streetlights, and sideswipe and rear-end collisions were also associated with a higher proportion of injury severity levels. The authors anticipate that these results will provide a significant contribution to the area of AV and safety outcomes. 相似文献
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This paper addresses the problem of designing safe controllers for vehicle manuevering in Automated Highway Systems (AHS) in which traffic is organized into platoons of closely spaced vehicles. Conditions to achieve safe platooning under normal modes of operation are investigated. The notion of safety is related with the absence of collisions that exceed a given relative velocity threshold. State dependent safety regions for the platoons are designed in such a way that, whenever the state of a platoon is inside these safety regions, it is guaranteed that platoon maneuvering will be safe and follow the behavior prescribed by the finite state machines that control vehicles manuevers. It is shown that it is possible to design control laws that keep the state of the platoons inside these safety regions. The results obtained allow one to decouple the controllers for the regulation of the manuevers and the finite state machines that determine their proper sequence in AHS architectures. The overall complexity of the design and verification of the AHS as an hybrid system is therefore greatly reduced. 相似文献
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Luis Alvarez Roberto Horowitz 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》1999,32(1):23-55
This paper addresses the problem of designing safe controllers for vehicle manuevering in Automated Highway Systems (AHS) in which traffic is organized into platoons of closely spaced vehicles. Conditions to achieve safe platooning under normal modes of operation are investigated. The notion of safety is related with the absence of collisions that exceed a given relative velocity threshold. State dependent safety regions for the platoons are designed in such a way that, whenever the state of a platoon is inside these safety regions, it is guaranteed that platoon maneuvering will be safe and follow the behavior prescribed by the finite state machines that control vehicles manuevers. It is shown that it is possible to design control laws that keep the state of the platoons inside these safety regions. The results obtained allow one to decouple the controllers for the regulation of the manuevers and the finite state machines that determine their proper sequence in AHS architectures. The overall complexity of the design and verification of the AHS as an hybrid system is therefore greatly reduced. 相似文献
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由于视线障碍物造成的“鬼探头”事故已经成为当前城市道路交通事故的主要类型之一。针对汽车碰撞视线遮挡条件下横穿的弱势道路使用者(VRU)的场景, 设计了1种基于碰撞时间比和安全制动距离的避撞策略, 建立车辆与VRU的交通状态数学模型, 分析“鬼探头”场景下的制动避撞临界距离。结合临界距离和车辆与VRU的碰撞时间比, 将可以避免碰撞的场景分为3种工况, 分别采用不同的制动减速度, 建立自动紧急制动避撞策略。通过Euro NCAP CPNC测试场景对该策略与传统TTC制动算法进行比较分析。结果表明, 在Euro NCAP CPNC测试场景中, 自车利用该避撞策略在理想情况下能够在更高的车速情况下完成避撞; 在不能避免碰撞的高速行驶工况中较传统TTC算法能够更加有效降低碰撞速度, 同时降低事故重伤风险和死亡风险, 提高车辆的安全性。 相似文献
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Chao Yang Qiang Li Shoune Xiao Xi Wang 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2018,56(4):506-528
A three-dimensional dynamic model of crashed vehicles coupled with moving tracks is developed to research the dynamic behaviour of the train front end collision on tangent tracks. The three-dimensional dynamic model consists of a crashed vehicle model, moving track models, a simple wheel–rail contact model, a velocity-based coupler model and the model of energy absorption and anti-climbing devices. The vector method dealing with the nonlinear wheel–rail geometry is put forward in the paper. The developed model is applicable in the scope that central collisions occur on tangent tracks at low speeds. The examples of the vehicle impacting with a rigid wall and the train front end collision are carried out to obtain the dynamic responses of vehicles. The overriding issue is studied on the basis of the wheel rise in train collisions. The results show that the second bogie of the first colliding vehicle possesses the maximal wheel rise. The wheel rise increases with the increase of vehicles. However, the number of vehicles has tiny influence on the overriding in train collisions at low speeds. On the contrary, the impact speed has significant influence on the overriding in train collisions. The wheel rise increases rapidly if the impact speed is close to the critical speed of overriding. The large wheel rise is principally generated by the great coupler force related to the rigid impact in the axial direction. 相似文献
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《国际交通安全学会研究报告》2022,46(1):138-146
Road safety is one of the major concerns in the ever-growing traffic network. In addressing this, surrogate safety measures play a critical role in identifying collision instincts. Besides the added advantage of quantifying collision instincts in advance, surrogate safety measures have their limitations. For example, in some instances, those measures tend to show erroneous results. In this paper, a new surrogate safety measure Instant Heeding Time (IHT), is presented based on follower vehicle attention in the traffic streams. This new measure is integrated with a distance gap and the vehicles' speeds to assess probable rear-end collisions. Further, along with other safety measures, the developed safety framework is tested over a study section, with the help of trajectory datasets at three traffic flow conditions (free flow, capacity, and congested) under prevailing heterogeneous (mixed) traffic conditions. Based on the safety framework, it is observed that, in the case of free flow and capacity conditions, 23 and 55 probable rear-end collisions points are detected. At the congested conditions, no rear-end collision points are observed. Further, smaller vehicles in the traffic stream are associated with a higher number of rear-end collision instincts than other vehicle categories. The conceptualized safety framework can be applied on a real-time basis for monitoring the safety measures for vehicles in a mixed traffic stream. 相似文献
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为了解船-桥碰撞过程中组合防撞装置的防护能力,以东洲湘江大桥为背景,设计一种新型钢-复合材料组合防撞装置(由钢-复合材料迎撞面、复合材料分隔板、内部耗能填充材料和复合材料背撞面组成),采用LS_DYNA软件建立船-防撞装置-桥梁三者有限元模型,分析带球艏船舶、驳船不同水位撞击下有无防撞装置的桥墩结构响应。结果表明:未设防撞装置时,2类船舶撞击下结构响应均较大,相较于带球艏船舶,驳船撞击力峰值较大(10号墩撞击力峰值为17.53 MN);与低水位、平均水位相比,高水位撞击下结构响应较大。设置防撞装置后,带球艏船舶撞击力峰值平均减小30%,驳船撞击力峰值降幅可达54.2%,其他结构响应也明显降低。该防撞装置降低了桥墩结构响应和船舶损伤,具有较好的防撞能力。 相似文献
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选取中国国家车辆事故深度调查体系(NAIS)数据库中51例包含视频的人—车碰撞事故,进行了特征分析,分析内容包括:人—车碰撞危险场景、碰撞前人—车相对位置、行人碰撞运动响应、人—车碰撞包络线分布、头部落点分布等。结果表明:提取的10种场景,基本覆盖了各种人—车碰撞事故工况;对行人的探测,视场角(FoV)比探测距离更重要;轿车易导致行人正向旋转,单厢车易导致行人负向旋转;人—车碰撞包络线(WAD)主要集中在车辆两侧;致命伤的头部落点主要集中在前风窗玻璃下半部分、左右侧中部以及A柱附近。因此,基于碰撞视频信息可提高人—车碰撞事故特征分析的准确性。 相似文献
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《JSAE Review》1999,20(1):101-108
Previous studies of safety during vehicle collision pay attention to phenomena in the short time from starting collision, and the behaviour of rollover is studied separately from that at collision. Most simulation of traffic accidents are two-dimensional. Therefore, it is indispensable for vehicle design to analyze three-dimensional and continuous behaviour from crash till stopping. Accordingly, in this study, three-dimensional behaviour of two vehicles at collision is simulated by computer using dynamic models. Here, by comparison of the calculated results with real vehicles' collision test data, it is confirmed that the dynamic model of this study is reliable. It was confirmed in this study that the dynamic model thus established was applicable to various types of collisions and vehicles. 相似文献