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A Distributed Platoon Control Framework for Connected Automated Vehicles in an Urban Traffic Network

Bohui Wang, Rong Su

2022IEEE Transactions on Control of Network Systems37 citationsDOIOpen Access PDF

Abstract

In this article, we consider a specific scenario, where multiple connected automated vehicles (CAVs) entering one road link from different upstream links are required to form a platoon first, then cross the junction at the end of the link safely, and fuel economically. Each CAV may experience a reaction-time delay and follow a specific nonlinear car-following model. To address this problem, we design a two-stage distributed platoon control strategy. In the first stage, we present a sufficient condition about the length of a platoon that ensures a subsequent safe junction crossing, upon which a distributed cooperative control protocol is designed and an iteration algorithm is proposed to ensure the fast formation of the platoon in a finite time. Once the platoon is formed, in the second stage, we design a method to estimate the leader vehicle’s acceleration adjustment by developing distributed observers that ensure a safe junction crossing of the entire CAV platoon, taking into account follower-vehicle dynamics and an upcoming traffic signal schedule while minimizing the overall platoon fuel consumption. If a platoon has already been formed at the entrance of the link with the appropriate platoon size, then only the second-stage design is needed. Thus, our proposed two-stage CAV link control strategy may potentially become part of a broader fuel-economic solution for the effective management of CAV platoons in a large urban traffic network.

Topics & Concepts

PlatoonAccelerationScheduleComputer scienceReal-time computingEngineeringControl (management)Control engineeringControl theory (sociology)Artificial intelligencePhysicsOperating systemClassical mechanicsTraffic control and managementTransportation Planning and OptimizationVehicular Ad Hoc Networks (VANETs)