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Main Authors: Suzuki, Atsushi, Tokumitsu, Akihiro, Nishi, Ryosuke
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.03604
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author Suzuki, Atsushi
Tokumitsu, Akihiro
Nishi, Ryosuke
author_facet Suzuki, Atsushi
Tokumitsu, Akihiro
Nishi, Ryosuke
contents As a freeway-driving strategy, jam-absorption driving (JAD) clears a traffic shock wave (stop-and-go wave) by slowing down a single vehicle, called the absorbing vehicle. However, JAD may destabilize the traffic flow upstream of this vehicle, generating secondary shock waves. This study proposes a method to suppress secondary shock waves by controlling the behavior of connected and automated vehicles (CAVs) upstream of the absorbing vehicle, called support vehicles (SVs). A string-stability-based control method is applied in which SVs dynamically extend their time gaps to provide support driving (SD) for JAD. Numerical simulations revealed that SD damped perturbations caused by the absorbing vehicle and prevented secondary shock waves, consistent with the head-to-tail string stability criterion. Combining JAD and SD reduced fuel consumption and collision risk compared with the JAD-only method, but increased travel time. Reverting the extended time gap to its initial value reduced travel time while maintaining low collision risk compared with the non-reverting method, albeit with increased fuel consumption. Thus, combining JAD and SD effectively eliminates the target shock wave while suppressing secondary shock waves with guaranteed string stability.
format Preprint
id arxiv_https___arxiv_org_abs_2508_03604
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Suppressing secondary shock waves in jam-absorption driving via string-stable support vehicles
Suzuki, Atsushi
Tokumitsu, Akihiro
Nishi, Ryosuke
Physics and Society
As a freeway-driving strategy, jam-absorption driving (JAD) clears a traffic shock wave (stop-and-go wave) by slowing down a single vehicle, called the absorbing vehicle. However, JAD may destabilize the traffic flow upstream of this vehicle, generating secondary shock waves. This study proposes a method to suppress secondary shock waves by controlling the behavior of connected and automated vehicles (CAVs) upstream of the absorbing vehicle, called support vehicles (SVs). A string-stability-based control method is applied in which SVs dynamically extend their time gaps to provide support driving (SD) for JAD. Numerical simulations revealed that SD damped perturbations caused by the absorbing vehicle and prevented secondary shock waves, consistent with the head-to-tail string stability criterion. Combining JAD and SD reduced fuel consumption and collision risk compared with the JAD-only method, but increased travel time. Reverting the extended time gap to its initial value reduced travel time while maintaining low collision risk compared with the non-reverting method, albeit with increased fuel consumption. Thus, combining JAD and SD effectively eliminates the target shock wave while suppressing secondary shock waves with guaranteed string stability.
title Suppressing secondary shock waves in jam-absorption driving via string-stable support vehicles
topic Physics and Society
url https://arxiv.org/abs/2508.03604