Events deviating from normal traffic patterns in driving, anomalies, such as aggressive driving or bumpy roads, may harm delivery efficiency for transportation and logistics (T&L) business. Thus, detecting anomalies in driving is critical for the T&L industry. So far numerous researches have used vehicle sensor data to identify anomalies. Most previous works captured anomalies by using deep learning or machine learning algorithms, which require prior training processes and huge computational costs. This study proposes a method namely Anomaly Detection in Driving by Cluster Analysis Twice (ADDCAT) which clusters the processed sensor data in different physical properties. An event is said to be an anomaly if it never fits with the major cluster, which is considered as the pattern of normality in driving. This method provides a way to detect anomalies in driving with no prior training processes and huge computational costs needed. This paper validated the performance of the method on an open dataset.
翻译:与驾车正常交通模式不同的异常现象,例如激烈的驾驶或颠沛道路等异常现象,可能会损害运输和后勤业务的交付效率。因此,发现驾驶过程中的异常现象对T & L行业至关重要。到目前为止,许多研究都使用了车辆传感器数据来识别异常现象。以往的多数工作都通过使用深层学习或机器学习算法来捕捉异常现象,这需要事先培训过程和巨大的计算成本。本研究提出了一种方法,即由集群分析两次驾驶时的异常检测,将经过处理的传感器数据集中在不同的物理特性中。据说,如果与被视为正常驾驶模式的主要组群不相符合,则会是一种异常现象。这种方法提供了一种方法,可以探测驾驶过程中的异常现象,而事先没有培训过程,而且需要巨大的计算成本。本文验证了在开放数据集上所用方法的性能。
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