eHMI on the Vehicle or on the Infrastructure? A Driving Simulator Study

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-08 DOI:10.59490/ejtir.2024.24.2.7273
Shiva Nischal Lingam, Joost De Winter, Yongqi Dong, Anastasia Tsapi, Bart Van Arem, Haneen Farah
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引用次数: 1

Abstract

Automated vehicles (AVs) may require the implementation of an external human-machine interface (eHMI) to communicate their intentions to human-driven vehicles. The optimal placement of the eHMI, either on the AV itself or as part of the road infrastructure, remains undetermined. The current driving simulator study investigated the effect of eHMI positioning on human driving behavior, during the approach and execution of right turns at T-intersections. Forty-three participants drove under three conditions: absence of eHMI, eHMI on the AV (eHMIv), and eHMI integrated into the infrastructure (eHMIi). Participants encountered AVs that either yielded or did not yield to their vehicles. The results regarding the placement of the eHMI showed that both concepts are advantageous, but for different reasons. eHMIv was appreciated because implicit and explicit communication are congruent, although the AV must first be visually identified to respond to it. eHMIi was appreciated because a familiar cue is always at a known location in the environment; as a result, participants braked earlier for the intersection and came less close to the AV (which can be interpreted as a safety advantage or efficiency disadvantage). Although there are limitations to a driving simulator study like this, this research provides important insights into the fundamental question of how information placement affects drivers’ visual attention demands and driving behavior, topics that are important in view of the development of future cities.
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eHMI 在车辆上还是在基础设施上?驾驶模拟器研究
自动驾驶汽车(AV)可能需要实施外部人机界面(eHMI),以便将其意图传达给人类驾驶的车辆。而电子人机界面的最佳位置,是设置在自动驾驶汽车上,还是作为道路基础设施的一部分,目前仍未确定。目前的驾驶模拟器研究调查了在 T 型交叉路口接近和执行右转时,eHMI 定位对人类驾驶行为的影响。43 名参与者在三种条件下驾驶:没有 eHMI、eHMI 位于视听设备上(eHMIv)和 eHMI 集成到基础设施中(eHMIi)。参与者遇到的自动驾驶汽车要么让行,要么不让行。eHMIv 受到好评,因为隐性和显性通信是一致的,尽管必须首先通过视觉识别 AV 才能对其做出反应。eHMIi 受到好评,因为熟悉的提示总是在环境中的已知位置;因此,参与者在交叉路口提前刹车,并较少靠近 AV(这可以解释为安全优势或效率劣势)。虽然类似的驾驶模拟器研究有其局限性,但这项研究对信息放置如何影响驾驶者的视觉注意力需求和驾驶行为这一基本问题提供了重要的见解,而这些问题对未来城市的发展非常重要。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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