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Main Authors: Garjani, Shaya, Cherukuri, Ashish, Jayawardhana, Bayu, Monshizadeh, Nima
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2601.13066
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author Garjani, Shaya
Cherukuri, Ashish
Jayawardhana, Bayu
Monshizadeh, Nima
author_facet Garjani, Shaya
Cherukuri, Ashish
Jayawardhana, Bayu
Monshizadeh, Nima
contents Recent studies on transportation networks have shown that real-time route guidance can inadvertently induce congestion or oscillatory traffic patterns. Nevertheless, such technologies also offer a promising opportunity to manage traffic non-intrusively by shaping the information delivered to users, thereby mitigating congestion and enhancing network stability. A key step toward this goal is to identify information signals that ensure the existence of an equilibrium with desirable stability and convergence properties. This challenge is particularly relevant when traffic density and routing dynamics evolve concurrently, as increasingly occurs with digital signaling and real-time navigation technologies. To address this, we analyze a parallel-path transportation network with a single origin-destination pair, incorporating joint traffic density and logit-based routing dynamics that evolve at the same timescale. We characterize a class of density-dependent traffic information that guarantees a unique equilibrium in the free-flow regime, ensures its asymptotic stability, and keeps traffic densities within the free-flow region for all time. The theoretical results are complemented by a numerical case study demonstrating how the framework can inform the design of traffic information that reduces total travel time without compromising credibility.
format Preprint
id arxiv_https___arxiv_org_abs_2601_13066
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Stability of Information-Based Routing in Dynamic Transportation Networks
Garjani, Shaya
Cherukuri, Ashish
Jayawardhana, Bayu
Monshizadeh, Nima
Systems and Control
Recent studies on transportation networks have shown that real-time route guidance can inadvertently induce congestion or oscillatory traffic patterns. Nevertheless, such technologies also offer a promising opportunity to manage traffic non-intrusively by shaping the information delivered to users, thereby mitigating congestion and enhancing network stability. A key step toward this goal is to identify information signals that ensure the existence of an equilibrium with desirable stability and convergence properties. This challenge is particularly relevant when traffic density and routing dynamics evolve concurrently, as increasingly occurs with digital signaling and real-time navigation technologies. To address this, we analyze a parallel-path transportation network with a single origin-destination pair, incorporating joint traffic density and logit-based routing dynamics that evolve at the same timescale. We characterize a class of density-dependent traffic information that guarantees a unique equilibrium in the free-flow regime, ensures its asymptotic stability, and keeps traffic densities within the free-flow region for all time. The theoretical results are complemented by a numerical case study demonstrating how the framework can inform the design of traffic information that reduces total travel time without compromising credibility.
title Stability of Information-Based Routing in Dynamic Transportation Networks
topic Systems and Control
url https://arxiv.org/abs/2601.13066