Assessment of the safety benefits of HUD warning under high-risk pedestrian crossing event in the connected environment

IF 6.2 1区工程技术 Q1 ERGONOMICS

Accident; analysis and prevention Pub Date : 2025-09-01 DOI:10.1016/j.aap.2025.108157

Yu Zhang , Xiaohua Zhao , Yang Bian , Jianling Huang , Duan Yu , Haolin Chen

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引用次数: 0

Abstract

The head-up display (HUD) warning system in a connected environment is expected to improve driving behavior and enhance pedestrian crossing safety. While existing research has preliminarily examined the effectiveness of HUD warning system in avoiding pedestrian collisions, scant attention has been given to the microcosmic influence on driving behavior and a precise quantification of its overall benefits, especially in high-risk pedestrian crossing scenarios. To investigate these influences, this study employed driving simulations to construct six connected scenarios: three warning systems (Baseline/head-down display(HDD)/HUD) × two weather conditions (clear weather/foggy weather). Data on the driving behavior of 34 drivers across these scenarios were collected. The whole spatial change process of driving behavior in pedestrian crossing events is described from the microscopic level, and the influence law of warning system and weather conditions on reaction, acceleration and deceleration behavior is analyzed. A comprehensive index system reflecting the safety level of the risk-avoidance stage, the recovery level of the recovery stage and the stability level of the overall stage was constructed to explore impact characteristics and utilities of the three warning systems under different weather conditions. The study found that the speed space variations under HDD and HUD conditions were more gentle compared to Baseline conditions, especially in the HUD group, but there were differences in individual adherence to HDD and HUD systems. The results of two-way repeated measures ANOVA and fuzzy comprehensive evaluation indicated that compared to the Baseline and HDD, the HUD warning system improves the safety level and stability level under clear and foggy weather conditions, but does not have a significant advantage in the recovery level. Specifically, the HUD system enables drivers to react earlier, complete risk avoidance earlier, execute smoother acceleration and deceleration maneuvers, and maintain more stable lateral control. Overall, the HUD warning system helps drivers achieve optimal driving performance in a connected environment, even in more hazardous foggy conditions. The research results can provide support for relevant departments to evaluate and improve HUD system in a targeted manner.

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互联环境下高危人行横道事件下HUD预警的安全效益评估

互联环境中的平视显示器（HUD）预警系统有望改善驾驶行为，并提高行人过街的安全性。虽然已有研究初步考察了HUD预警系统在避免行人碰撞方面的有效性，但很少关注HUD预警系统对驾驶行为的微观影响以及对其整体效益的精确量化，特别是在高危行人过街场景下。为了研究这些影响，本研究采用驾驶模拟构建了六个相互关联的场景：三个预警系统（基线/头显/HUD） ×两种天气条件（晴朗天气/大雾天气）。收集了34名驾驶员在这些场景下的驾驶行为数据。从微观层面描述了行人过马路事件中驾驶行为的整个空间变化过程，分析了预警系统和天气条件对反应、加减速行为的影响规律。构建反映风险规避阶段安全水平、恢复阶段恢复水平和整体阶段稳定水平的综合指标体系，探讨三种预警系统在不同天气条件下的影响特征和效用。研究发现，与基线条件相比，HDD和HUD条件下的速度空间变化更为温和，特别是在HUD组中，但个人对HDD和HUD系统的依从性存在差异。双向重复测量方差分析和模糊综合评价结果表明，与Baseline和HDD相比，HUD预警系统在晴雾天气条件下提高了安全水平和稳定水平，但在恢复水平上没有显著优势。具体而言，HUD系统使驾驶员能够更早地做出反应，更早地完成风险规避，执行更平稳的加速和减速操作，并保持更稳定的横向控制。总体而言，HUD警告系统可帮助驾驶员在联网环境中实现最佳驾驶性能，即使在更危险的雾天条件下也是如此。研究结果可为相关部门有针对性地对HUD系统进行评估和改进提供支持。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Accident; analysis and prevention Multiple-

CiteScore

11.90

自引率

16.90%

发文量

264

审稿时长

48 days

期刊介绍： Accident Analysis & Prevention provides wide coverage of the general areas relating to accidental injury and damage, including the pre-injury and immediate post-injury phases. Published papers deal with medical, legal, economic, educational, behavioral, theoretical or empirical aspects of transportation accidents, as well as with accidents at other sites. Selected topics within the scope of the Journal may include: studies of human, environmental and vehicular factors influencing the occurrence, type and severity of accidents and injury; the design, implementation and evaluation of countermeasures; biomechanics of impact and human tolerance limits to injury; modelling and statistical analysis of accident data; policy, planning and decision-making in safety.