Improve adaptive cruise control under driver distraction: Time headway compensation based on a random‐effect crash risk model

Human drivers conduct compensatory behaviour to counteract the increased risk while being distracted. This kind of compensation strategy should be learned for a safer and smart design of adaptive cruise control system (ACC). Hence, a simulator study was conducted, requiring performance visual, cogni...

Full description

Saved in:
Bibliographic Details
Published inIET intelligent transport systems Vol. 15; no. 10; pp. 1241 - 1255
Main Authors Li, Penghui, Hu, Mengxia, Chen, Feng, Xu, Chengliang, Dong, Chunjiao, Li, Yibing
Format Journal Article
LanguageEnglish
Published Wiley 01.10.2021
Subjects
Online AccessGet full text

Cover

Loading…
More Information
Summary:Human drivers conduct compensatory behaviour to counteract the increased risk while being distracted. This kind of compensation strategy should be learned for a safer and smart design of adaptive cruise control system (ACC). Hence, a simulator study was conducted, requiring performance visual, cognitive, and combined secondary tasks during a car following scenario. An increased time headway (THW) was found in all of the three distraction conditions, which confirmed that drivers compensated an extra THW to counteract the increased crash risk. Furthermore, crash probability models using binary logistic regression with random intercept were constructed where driver distraction and dynamic traffic situations were embodied as inputs. Results showed that crash risk increased with reduced THW, increased lead vehicle deceleration, and unopened brake light of the lead vehicle. Besides, visual‐related distractions increased crash risk, while pure cognitive distraction lowered crash risk in low THW (lower than 1.8 s) condition and increased crash risk in high THW (larger than 1.8 s) condition. Based on the authors' proposed models, theoretical compensation in THW to fully counteract the increased crash risk by distraction was derived, which could be used for the design of a human‐like ACC with automatic adjustment of THW setting considering driver distraction.
ISSN:1751-956X
1751-9578
DOI:10.1049/itr2.12092