基于深度学习的多源事故数据集驱动交通事故画像,用于事故推理

IF 2 4区 工程技术 Q2 ENGINEERING, CIVIL
Chun-Hao Wang, Yue-Tian-Si Ji, Li Ruan, Joshua Luhwago, Yin-Xuan Saw, Sokhey Kim, Tao Ruan, Li-Min Xiao, Rui-Jue Zhou
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引用次数: 0

摘要

基于交通事故数据的画像在事故原因调查、关系推理、预防和控制方面发挥着重要作用。交通事故数据趋于多源化,事故关系日益隐蔽和复杂。现有报道的研究多集中在交通事故驾驶员的量罚,驾驶员、车辆、日期之间的关系等方面。如何利用基于深度学习的多源数据,尤其是基于中国近年来的非结构化数据和结构化数据,为事故驾驶员个体和群体建立事故画像,仍是空白。此外,如何进行多源事故数据的标签提取、身份识别、关系提取等仍是具有挑战性的问题。本文提出了一种基于深度学习的多源事故数据集驱动的交通事故画像方法。我们的多源事故数据集驱动深度学习模型由以下三个子模型组成:(1)结构化数据事故模型,使用我们的事故特征驱动双向长短时记忆(Bi-LSTM)和事故特征驱动双向条件随机场(Bi-CRF)模型来提取标签;(2)非结构化交通事故数据模型,使用我们的事故特征驱动片断卷积神经网络(PCNN)模型来识别提取的标签;(3)半结构化交通事故数据处理模型。此外,为了解决如何构建多源事故数据之间的隐藏关系问题,本文提出了一种基于交通事故知识图谱的多源事故数据可视化方法,通过事故关系推理算法来完成交通事故数据标签之间的隐藏关系,然后利用交通事故知识图谱对数据进行可视化处理。本文使用《人民日报》NER数据集和人工标注数据集测试Bi-LSTM + Bi-CRF模型,与其他几个模型相比,Bi-LSTM + Bi-CRF模型获得了0.9562和0.9779的最高分。本文使用 DuIE 数据集和人工标注数据集来测试 PCNN 模型,与其他几个模型相比,它获得了 0.9674 和 0.9108 的最高分。实验验证了我们的模型在事故标签提取、事故身份识别和事故关系提取方面优于其他模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multisource Accident Datasets-Driven Deep Learning-Based Traffic Accident Portrait for Accident Reasoning

Multisource Accident Datasets-Driven Deep Learning-Based Traffic Accident Portrait for Accident Reasoning

Traffic accident data-based portrait plays a vital role in accident cause investigation, relationship reasoning, prevention, and control. The traffic accident data tend to be multisourced with increasingly hidden and complicated accident relationships. The existing reported research focus more on traffic drivers’ measurement of penalty, the relationship among drivers, cars, and dates, etc. How to use multisource data based on deep learning, especially based on the Chinese recent unstructured data and structured data to establish accident portrait for individual and groups of accident drivers, still lacks. Moreover, how to perform multisource accident data label extraction, identity, and relationship extraction are still challenging problems. This paper proposes a multisource accident datasets-driven deep learning-based traffic accident portrait method. Our multisource accident datasets-driven deep learning model is composed of the following three submodels: (1) the structured data accident model using our accident feature-driven bidirectional long short-term memory (Bi-LSTM) and accident feature-driven bidirectional conditional random field (Bi-CRF) model to extract labels, (2) the unstructured traffic accident data model using our accident feature-driven piecewise convolutional neural network (PCNN) model to identify the extracted labels, and (3) the semistructured traffic accident data processing model. Moreover, to solve the problem of how to construct hidden relationship among the multisource accident data, a multisource accident data visualization method based on traffic accident knowledge graph where the accident relational inference algorithm is to complete the hidden relationship between traffic accident data labels is used and then data are visualized using the traffic accident knowledge graph. This paper uses the NER dataset of the People’s Daily and a manually labeled dataset to test the Bi-LSTM + Bi-CRF model, and it acquires the highest scores of 0.9562 and 0.9779 compared with several other models. This paper uses the DuIE dataset and a manually labeled dataset to test the PCNN model, and it acquires the highest scores of 0.9674 and 0.9108 compared with several other models. Experiments verified our model’s merits than other models in regards to accident label extraction, accident identity identification, and accident relationship extraction.

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来源期刊
Journal of Advanced Transportation
Journal of Advanced Transportation 工程技术-工程:土木
CiteScore
5.00
自引率
8.70%
发文量
466
审稿时长
7.3 months
期刊介绍: The Journal of Advanced Transportation (JAT) is a fully peer reviewed international journal in transportation research areas related to public transit, road traffic, transport networks and air transport. It publishes theoretical and innovative papers on analysis, design, operations, optimization and planning of multi-modal transport networks, transit & traffic systems, transport technology and traffic safety. Urban rail and bus systems, Pedestrian studies, traffic flow theory and control, Intelligent Transport Systems (ITS) and automated and/or connected vehicles are some topics of interest. Highway engineering, railway engineering and logistics do not fall within the aims and scope of JAT.
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