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Simulation Strategies for Mixed Traffic Conditions: A Review of Car-Following Models and Simulation Frameworks

Bhargav Naidu Matcha, Satesh Namasivayam, Mohammad Hosseini Fouladi, K.C. Ng, Sivakumar Sivanesan, Se Yong Eh Noum

2020Journal of Engineering59 citationsDOIOpen Access PDF

Abstract

The area of traffic flow modelling and analysis that bridges civil engineering, computer science, and mathematics has gained significant momentum in the urban areas due to increasing vehicular population causing traffic congestion and accidents. Notably, the existence of mixed traffic conditions has been proven to be a significant contributor to road accidents and congestion. The interaction of vehicles takes place in both lateral and longitudinal directions, giving rise to a two-dimensional (2D) traffic behaviour. This behaviour contradicts with the traditional car-following (CF) or one-dimensional (1D) lane-based traffic flow. Existing one-dimensional CF models did the inclusion of lane changing and overtaking behaviour of the mixed traffic stream with specific alterations. However, these parameters cannot describe the continuous lateral manoeuvre of mixed traffic flow. This review focuses on all the significant contributions made by 2D models in evaluating the lateral and longitudinal vehicle behaviour simultaneously. The accommodation of vehicle heterogeneity into the car-following models (homogeneous traffic models) is discussed in detail, along with their shortcomings and research gaps. Also, the review of commercially existing microscopic traffic simulation frameworks built to evaluate real-world traffic scenario are presented. This review identified various vehicle parameters adopted by existing CF models and whether the current 2D traffic models developed from CF models effectively captured the vehicle behaviour in mixed traffic conditions. Findings of this study are outlined at the end.

Topics & Concepts

OvertakingTraffic flow (computer networking)Traffic waveTraffic congestion reconstruction with Kerner's three-phase theoryTransport engineeringTraffic congestionTraffic simulationTraffic bottleneckComputer scienceMicroscopic traffic flow modelPopulationThree-phase traffic theorySimulationEngineeringTraffic generation modelFloating car dataMicrosimulationTraffic optimizationComputer securityReal-time computingDemographySociologyTraffic control and managementTraffic Prediction and Management TechniquesTraffic and Road Safety
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