Modeling Lane-Changing Behavior in a Connected Environment: A Game Theory Approach
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A lane-changing model based on a game-theoretical approach that endogenously accounts for the flow of information in a connected vehicular environment is presented and provides a greater level of realism than a basic gap-acceptance model.Abstract:
Vehicle-to-Vehicle communications provide the opportunity to create an internet of cars through the recent advances in communication technologies, processing power, and sensing technologies. A connected vehicle receives real-time information from surrounding vehicles; such information can improve drivers’ awareness about their surrounding traffic condition and lead to safer and more efficient driving maneuvers. Lane-changing behavior,as one of the most challenging driving maneuvers to understand and to predict, and a major source of congestion and collisions, can benefit from this additional information.This paper presents a lane-changing model based on a game-theoretical approach that endogenously accounts for the flow of information in a connected vehicular environment.A calibration approach based on the method of simulated moments is presented and a simplified version of the proposed framework is calibrated against Next Generation Simulation (NGSIM) data. The prediction capability of the simplified model is validated. It is concluded the presented framework is capable of predicting lane-changing behavior with limitations that still need to be addressed. Finally, a simulation framework based on the fictitious play is proposed. The simulation results revealed that the presented lane-changing model provides a greater level of realism than a basic gap-acceptance model.read more
Citations
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A game theory-based approach for modelling mandatory lane-changing behaviour in a connected environment
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Lane changing intention recognition based on speech recognition models
TL;DR: A novel algorithm combining the hidden Markov model (HMM) and Bayesian filtering techniques to recognize a driver’s lane changing intention and can achieve a recognition accuracy of 93.5% and 90.3% which is a significant improvement compared with the HMM-only algorithm.
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Decentralized Cooperative Lane-Changing Decision-Making for Connected Autonomous Vehicles*
TL;DR: The effects of decentralized cooperative lane-changing decision-making framework on traffic stability, efficiency, homogeneity, and safety are investigated in a numerical simulation experiment and show the high potential of the proposed framework in traffic dynamics.
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Simultaneous modeling of car-following and lane-changing behaviors using deep learning
TL;DR: A deep learning model, long short-term memory (LSTM) neural networks, is adopted to model the two basic behaviors simultaneously of car-following and lane-changing, and the results show that HRC LSTM model can accurately estimate CF and LC behaviors simultaneously with low longitudinal trajectories error and high LC prediction accuracy compared with the classical models.
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