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An Asymmetric-Anticipation Car-following Model in the Era of Autonomous-Connected and Human-Driving Vehicles

Ammar Jafaripournimchahi, HU Wu-sheng, Lu Sun

2020Journal of Advanced Transportation12 citationsDOIOpen Access PDF

Abstract

Herein, we explored the impact of anticipation and asymmetric driving behavior on vehicle’s position, velocity, acceleration, energy consumption, and exhaust emissions of CO, HC, and NOx in mixed traffic flow. We present an asymmetric-anticipation car-following model (AAFVD) considering the motion information from two direct preceding vehicles (i.e., human-driving (HD) and autonomous and connected (AC) vehicles platoon) via wireless data transmission. The linear stability approach was used to evaluate the properties of the AAFVD model. Our simulations revealed that the drivers’ anticipation factor using the motion information from two direct preceding vehicles in connected vehicles environment can effectively improve traffic flow stability. The vehicle’s departure and arrival process while passing through a signal lane with a traffic light considering the anticipation and asymmetric driving behavior, and the motion information from two direct preceding vehicles was explored. Our numerical results demonstrated that the AAFVD model can decrease the velocity fluctuations, energy consumption, and exhaust emissions of vehicles in mixed traffic flow system.

Topics & Concepts

PlatoonAnticipation (artificial intelligence)AccelerationComputer scienceAutomotive engineeringEnergy consumptionSimulationTraffic flow (computer networking)Control theory (sociology)EngineeringArtificial intelligencePhysicsElectrical engineeringControl (management)Computer securityClassical mechanicsTraffic control and managementTransportation Planning and OptimizationTraffic Prediction and Management Techniques
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