{"title":"开发易受伤害道路使用者事故严重程度预测模型","authors":"","doi":"10.3103/s1060992x23040082","DOIUrl":null,"url":null,"abstract":"<span> <h3>Abstract</h3> <p>Road traffic accidents are considered a significant problem which ruins the life of many people and also causes major economic losses. So, this issue is considered a hot research topic, and many researchers all over the world are focusing on developing a solution to this most challenging problem. Traditionally the accident spots are detected by means of transportation experts, and following that, some of the statistical models such as linear and nonlinear regression were used for accident severity prediction. However, these traditional approaches do not have the capability to analyze the relationship between the influential factor and accident severity. To address this issue, an Artificial Neural Network (ANN) classifier based vulnerable accident prediction model is proposed in this current research. Initially, the past accident data over the past period of years is collected from a specified area. The acquired data consists of a variable factor related to road infrastructure, weather condition, area of the accident, type of injury and driving characteristics. Then, to standardize the raw input data, min-max normalization is used as a pre-processing technique. The pre-processed is sent for the feature selection process in which essential features are selected by correlating the variable factor with accident severity prediction. Following that, the dimension of the features is reduced using Latent Sematic Index (LSI). Finally, the reduced features are fetched into the ANN classifier for predicting the severity of accidents such as low, medium and high. Simulation analysis of the proposed accident prediction model is carried out by evaluating some of the performance metrics for three datasets. 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引用次数: 0
摘要
摘要 道路交通事故被认为是一个重大问题,它毁掉了许多人的生命,也造成了重大的经济损失。因此,这个问题被认为是一个热门研究课题,世界各地的许多研究人员都在关注如何解决这个最具挑战性的问题。传统上,事故点是通过交通专家来检测的,之后,一些统计模型(如线性和非线性回归)被用于事故严重性预测。然而,这些传统方法无法分析影响因素与事故严重性之间的关系。针对这一问题,本研究提出了一种基于人工神经网络(ANN)分类器的易损事故预测模型。首先,从指定区域收集过去几年的事故数据。获取的数据包括与道路基础设施、天气状况、事故发生区域、伤害类型和驾驶特征相关的可变因素。然后,为了使原始输入数据标准化,使用了最小-最大归一化作为预处理技术。预处理后的数据将被送往特征选择过程,在此过程中,通过将可变因素与事故严重性预测相关联来选择基本特征。然后,使用潜在语义索引(LSI)降低特征的维度。最后,将缩减后的特征提取到 ANN 分类器中,用于预测事故的严重程度,如低、中和高。通过评估三个数据集的一些性能指标,对所提出的事故预测模型进行了仿真分析。在数据集 1 中,所提模型的准确率、误差、特异性、召回率和精确率分别为 96.3%、0.03%、98% 和 98%。通过所提出的易损事故预测模型,可以有效地分析事故的严重程度,提高道路安全水平。
Development of Prediction Models for Vulnerable Road User Accident Severity
Abstract
Road traffic accidents are considered a significant problem which ruins the life of many people and also causes major economic losses. So, this issue is considered a hot research topic, and many researchers all over the world are focusing on developing a solution to this most challenging problem. Traditionally the accident spots are detected by means of transportation experts, and following that, some of the statistical models such as linear and nonlinear regression were used for accident severity prediction. However, these traditional approaches do not have the capability to analyze the relationship between the influential factor and accident severity. To address this issue, an Artificial Neural Network (ANN) classifier based vulnerable accident prediction model is proposed in this current research. Initially, the past accident data over the past period of years is collected from a specified area. The acquired data consists of a variable factor related to road infrastructure, weather condition, area of the accident, type of injury and driving characteristics. Then, to standardize the raw input data, min-max normalization is used as a pre-processing technique. The pre-processed is sent for the feature selection process in which essential features are selected by correlating the variable factor with accident severity prediction. Following that, the dimension of the features is reduced using Latent Sematic Index (LSI). Finally, the reduced features are fetched into the ANN classifier for predicting the severity of accidents such as low, medium and high. Simulation analysis of the proposed accident prediction model is carried out by evaluating some of the performance metrics for three datasets. Accuracy, error, specificity, recall and precision attained for the proposed model using dataset 1 is 96.3, 0.03, 98 and 98%. Through this proposed vulnerable accident prediction model, the severity of accidents can be analyzed effectively, and road safety levels can be improved.
期刊介绍:
The journal covers a wide range of issues in information optics such as optical memory, mechanisms for optical data recording and processing, photosensitive materials, optical, optoelectronic and holographic nanostructures, and many other related topics. Papers on memory systems using holographic and biological structures and concepts of brain operation are also included. The journal pays particular attention to research in the field of neural net systems that may lead to a new generation of computional technologies by endowing them with intelligence.
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