Driving with a Haptic Guidance System in Degraded Visibility Conditions: Behavioral Analysis and Identification of a Two-Point Steering Control Model

Yishen Zhao, P. Chevrel, F. Claveau, F. Mars
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Abstract

The objective of this study is to determine the ability of a two-point steering control model to account for the influence of a haptic guidance system in different visibility conditions. For this purpose, the lateral control of the vehicle was characterized in terms of driving performance as well as through the identification of anticipation and compensation parameters of the driver model. The hypothesis is that if the structure of the model is valid in the considered conditions, the value of the parameters will change in coherence with the observed behavior. The results of an experiment conducted on a driving simulator demonstrate that the identified model can account for the cumulative influence of the haptic guidance system and degraded visibility. The anticipatory gain is sensitive to changes in driving conditions that have a direct influence on the produced trajectory, and the compensatory gain is sensitive to a decrease in the variability of the lateral position. However, a model with only the steering wheel angle as output is not able to determine whether the change in lateral position variability is due to the driver’s lack of anticipation or to the assistance provided by the haptic guidance system.
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视觉退化条件下触觉导向系统驾驶:两点转向控制模型的行为分析与辨识
本研究的目的是确定两点转向控制模型的能力,以解释触觉制导系统在不同能见度条件下的影响。为此,通过识别驾驶员模型的预期参数和补偿参数,从驾驶性能的角度对车辆的横向控制进行表征。假设是,如果模型的结构在考虑的条件下是有效的,那么参数的值将与观测到的行为一致地变化。在驾驶模拟器上进行的实验结果表明,所识别的模型可以考虑触觉引导系统和能见度下降的累积影响。预期增益对直接影响生产轨迹的驾驶条件变化敏感,补偿增益对侧向位置可变性的减少敏感。然而,仅以方向盘角度作为输出的模型无法确定横向位置变化的变化是由于驾驶员缺乏预期还是由于触觉引导系统提供的辅助。
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