Litcius/Paper detail

Analysis and Design of Vehicle Platooning Operations on Mixed-Traffic Highways

Li Jin, Mladen Čičić, Karl Henrik Johansson, Saurabh Amin

2020IEEE Transactions on Automatic Control57 citationsDOI

Abstract

Platooning of connected and autonomous vehicles (CAVs) has a significant potential for throughput improvement. However, the interaction between CAVs and non-CAVs may limit the practically attainable improvement due to platooning. To better understand and address this limitation, we introduce a new fluid model of mixed-autonomy traffic flow and use this model to analyze and design platoon coordination strategies. We propose a tandem-link fluid model that considers randomly arriving platoons sharing highway capacity with non-CAVs. We derive verifiable conditions for stability of the fluid model by analyzing an underlying M/D/1 queuing process and establishing a Foster–Lyapunov drift condition for the fluid model. These stability conditions enable a quantitative analysis of highway throughput under various scenarios. The model is useful for designing platoon coordination strategies that maximize throughput and minimize delay. Such coordination strategies are provably optimal in the fluid model and are practically relevant. We also validate our results using standard macroscopic (cell transmission model) and microscopic (simulation for urban mobility) simulation models.

Topics & Concepts

PlatoonCell Transmission ModelQueueing theoryThroughputComputer scienceMicroscopic traffic flow modelLyapunov functionTraffic flow (computer networking)Stability (learning theory)Process (computing)Distributed computingSimulationEngineeringControl (management)Computer networkTraffic congestionTraffic generation modelTransport engineeringMachine learningWirelessPhysicsTelecommunicationsQuantum mechanicsNonlinear systemOperating systemArtificial intelligenceTraffic control and managementTransportation Planning and OptimizationAutonomous Vehicle Technology and Safety