{"title":"RCP-RF:基于驾驶风险潜在领域的道路-汽车-行人综合风险管理框架","authors":"Shuhang Tan, Zhiling Wang, Yan Zhong","doi":"10.1049/itr2.12508","DOIUrl":null,"url":null,"abstract":"Recent years have witnessed the proliferation of traffic accidents, which led wide researches on automated vehicle (AV) technologies to reduce vehicle accidents, especially on risk assessment framework of AV technologies. However, existing time-based frameworks cannot handle complex traffic scenarios and ignore the motion tendency influence of each moving objects on the risk distribution, leading to performance degradation. To address this problem, a comprehensive driving risk management framework named RCP-RF is novelly proposed based on potential field theory under connected and automated vehicles environment, where the pedestrian risk metric is combined into a unified road-vehicle driving risk management framework. Different from existing algorithms, the motion tendency between ego and obstacle cars and the pedestrian factor are legitimately considered in the proposed framework, which can improve the performance of the driving risk model. Moreover, it requires only <span data-altimg=\"/cms/asset/ce77cfee-2bba-406d-aa49-a2e297e39a9b/itr212508-math-0001.png\"></span><math altimg=\"urn:x-wiley:1751956X:media:itr212508:itr212508-math-0001\" display=\"inline\" location=\"graphic/itr212508-math-0001.png\">\n<semantics>\n<mrow>\n<mi>O</mi>\n<mo stretchy=\"false\">(</mo>\n<msup>\n<mi>N</mi>\n<mn>2</mn>\n</msup>\n<mo stretchy=\"false\">)</mo>\n</mrow>\n$O(N^2)$</annotation>\n</semantics></math> of time complexity in the proposed method. 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引用次数: 0
摘要
近年来,交通事故频发,为减少交通事故,人们对自动驾驶汽车(AV)技术进行了广泛研究,尤其是对自动驾驶汽车技术的风险评估框架进行了深入研究。然而,现有的基于时间的框架无法处理复杂的交通场景,而且忽略了每个运动物体的运动趋势对风险分布的影响,导致性能下降。针对这一问题,本文基于势场理论,在车联网和自动驾驶环境下提出了一种名为 RCP-RF 的综合驾驶风险管理框架,将行人风险指标纳入统一的道路-车辆驾驶风险管理框架。与现有算法不同的是,该框架合理地考虑了自我车与障碍车之间的运动趋势以及行人因素,从而提高了驾驶风险模型的性能。此外,所提出的方法只需要 O(N2)$O(N^2)$ 的时间复杂度。实证研究在真实世界数据集 NGSIM 和真实 AV 平台上验证了我们提出的框架相对于最先进方法的优越性。
RCP-RF: A comprehensive road-car-pedestrian risk management framework based on driving risk potential field
Recent years have witnessed the proliferation of traffic accidents, which led wide researches on automated vehicle (AV) technologies to reduce vehicle accidents, especially on risk assessment framework of AV technologies. However, existing time-based frameworks cannot handle complex traffic scenarios and ignore the motion tendency influence of each moving objects on the risk distribution, leading to performance degradation. To address this problem, a comprehensive driving risk management framework named RCP-RF is novelly proposed based on potential field theory under connected and automated vehicles environment, where the pedestrian risk metric is combined into a unified road-vehicle driving risk management framework. Different from existing algorithms, the motion tendency between ego and obstacle cars and the pedestrian factor are legitimately considered in the proposed framework, which can improve the performance of the driving risk model. Moreover, it requires only of time complexity in the proposed method. Empirical studies validate the superiority of our proposed framework against state-of-the-art methods on real-world dataset NGSIM and real AV platform.
期刊介绍:
IET Intelligent Transport Systems is an interdisciplinary journal devoted to research into the practical applications of ITS and infrastructures. The scope of the journal includes the following:
Sustainable traffic solutions
Deployments with enabling technologies
Pervasive monitoring
Applications; demonstrations and evaluation
Economic and behavioural analyses of ITS services and scenario
Data Integration and analytics
Information collection and processing; image processing applications in ITS
ITS aspects of electric vehicles
Autonomous vehicles; connected vehicle systems;
In-vehicle ITS, safety and vulnerable road user aspects
Mobility as a service systems
Traffic management and control
Public transport systems technologies
Fleet and public transport logistics
Emergency and incident management
Demand management and electronic payment systems
Traffic related air pollution management
Policy and institutional issues
Interoperability, standards and architectures
Funding scenarios
Enforcement
Human machine interaction
Education, training and outreach
Current Special Issue Call for papers:
Intelligent Transportation Systems in Smart Cities for Sustainable Environment - https://digital-library.theiet.org/files/IET_ITS_CFP_ITSSCSE.pdf
Sustainably Intelligent Mobility (SIM) - https://digital-library.theiet.org/files/IET_ITS_CFP_SIM.pdf
Traffic Theory and Modelling in the Era of Artificial Intelligence and Big Data (in collaboration with World Congress for Transport Research, WCTR 2019) - https://digital-library.theiet.org/files/IET_ITS_CFP_WCTR.pdf
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