Litcius/Paper detail

Impacts of Different Driving Automation Levels on Highway Geometric Design from the Perspective of Trucks

Shuyi Wang, Bin Yu, Yang Ma, Jinzhou Liu, Wen Zhou

2021Journal of Advanced Transportation27 citationsDOIOpen Access PDF

Abstract

Truck automation is emerging as an innovative technology with benefits in traffic safety and the economy to revolutionize freight traffic. Despite these benefits, the potential negative or positive effects of different driving automation levels (from no automation to full automation) on highway geometry remained to be determined. In this study, differences related to sight distance characteristics among varied automation levels were firstly discussed and calibrated. Then, seven analysis scenarios of typical levels were proposed. Based on each level with tailored characteristics, the current models of geometric design elements including the required stopping sight distance, horizontal sight line offset, and lengths of vertical curves were revised. Finally, impacts of each level on computed values of those elements were evaluated. Results show that high or full driving automation could substantially lower the requirements of geometric design. Active safety systems have a similar role but with less significant effects. Differently, the driver assistance and partial or conditional automation systems put a higher demand on the road geometric design in terms of driving safety. Outcomes of this study can be used to design real-world geometry of dedicated lanes and provide a methodological basis for the operation of different driving automation features.

Topics & Concepts

AutomationTruckGeometric designOffset (computer science)Transport engineeringEngineeringPerspective (graphical)SimulationComputer scienceAutomotive engineeringArtificial intelligenceProgramming languageMechanical engineeringTraffic and Road SafetyAutonomous Vehicle Technology and SafetyHuman-Automation Interaction and Safety