Prediction of Drivers' Subjective Evaluation of Vehicle Reaction Under Aerodynamic Excitations.

IF 2.9 3区 心理学 Q1 BEHAVIORAL SCIENCES Human Factors Pub Date : 2024-05-01 Epub Date: 2023-02-20 DOI:10.1177/00187208231157935
Arun Kumar, Erik Sällström, Simone Sebben, Bengt Jacobson, Kaveh Amiri
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Abstract

Objective: The objectives are to determine which quantities are important to measure to determine how drivers perceive vehicle stability, and to develop a regression model to predict which induced external disturbances drivers are able to feel.

Background: Driver experience of a vehicle's dynamic performance is important to auto manufacturers. Test engineers and test drivers perform several on-road assessments to evaluate the vehicle's dynamic performance before sign-off for production. The presence of external disturbances such as aerodynamic forces and moments play a significant role in the overall vehicle assessment. As a result, it is important to understand the relation between the subjective experience of the drivers and these external disturbances acting on the vehicle.

Method: A sequence of external yaw and roll moment disturbances of varying amplitudes and frequencies is added to a straight-line high-speed stability simulation test in a driving simulator. The tests are performed with both common and professional test drivers, and their evaluations to these external disturbances are recorded. The sampled data from these tests are used to generate the needed regression model.

Results: A model is derived for predicting which disturbances drivers can feel. It quantifies difference in sensitivity between driver types and between yaw and roll disturbances.

Conclusion: The model shows a relationship between steering input and driver sensitivity to external disturbances in a straight-line drive. Drivers are more sensitive to yaw disturbance than roll disturbance and increased steering input lowers sensitivity.

Application: Identify the threshold above which unexpected disturbances such as aerodynamic excitations can potentially create unstable vehicle behaviour.

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预测驾驶员对空气动力激励下车辆反应的主观评价。
目标:目标:确定哪些量对于测量驾驶员如何感知车辆稳定性非常重要,并开发一个回归模型来预测驾驶员能够感受到哪些诱发的外部干扰:背景:对于汽车制造商来说,驾驶员对车辆动态性能的体验非常重要。测试工程师和测试驾驶员会进行多次路面评估,以评价车辆的动态性能,然后才会签字交付生产。外部干扰(如空气动力和力矩)的存在在整个车辆评估中起着重要作用。因此,了解驾驶员的主观感受与作用在车辆上的这些外部干扰之间的关系非常重要:方法:在驾驶模拟器中进行的直线高速稳定性模拟测试中,添加了一系列不同振幅和频率的外部偏航和侧倾力矩干扰。测试由普通和专业测试驾驶员进行,并记录他们对这些外部干扰的评价。这些测试的采样数据用于生成所需的回归模型:结果:得出了一个预测驾驶员能感受到哪些干扰的模型。结果:得出了一个模型,用于预测驾驶员能感受到哪些干扰,并量化了不同类型驾驶员以及偏航和侧倾干扰之间的敏感度差异:该模型显示了直线行驶中转向输入与驾驶员对外部干扰敏感度之间的关系。驾驶员对偏航干扰的敏感度高于侧倾干扰,转向输入的增加会降低敏感度:应用:确定意外干扰(如空气动力激励)可能造成车辆行为不稳定的阈值。
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来源期刊
Human Factors
Human Factors 管理科学-行为科学
CiteScore
10.60
自引率
6.10%
发文量
99
审稿时长
6-12 weeks
期刊介绍: Human Factors: The Journal of the Human Factors and Ergonomics Society publishes peer-reviewed scientific studies in human factors/ergonomics that present theoretical and practical advances concerning the relationship between people and technologies, tools, environments, and systems. Papers published in Human Factors leverage fundamental knowledge of human capabilities and limitations – and the basic understanding of cognitive, physical, behavioral, physiological, social, developmental, affective, and motivational aspects of human performance – to yield design principles; enhance training, selection, and communication; and ultimately improve human-system interfaces and sociotechnical systems that lead to safer and more effective outcomes.
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