期刊
TRANSPORTATION RESEARCH PART B-METHODOLOGICAL
卷 80, 期 -, 页码 82-106出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.trb.2015.06.010
关键词
NGSIM; Car-following; Lane-changing; Calibration; Validation; Traffic oscillations
This paper shows that the behavior of driver models, either individually or entangled in stochastic traffic simulation, is affected by the accuracy of empirical vehicle trajectories. To this aim, a traffic-informed methodology is proposed to restore physical and platoon integrity of trajectories in a finite time-space domain, and it is applied to one NGSIM 180 dataset However, as the actual trajectories are unknown, it is not possible to verify directly whether the reconstructed trajectories are really nearer to the actual unknowns than the original measurements. Therefore, a simulation-based validation framework is proposed, that is also able to verify indirectly the efficacy of the reconstruction methodology. The framework exploits the main feature of NGSIM-like data that is the concurrent view of individual driving behaviors and emerging macroscopic traffic patterns. It allows showing that, at the scale of individual models, the accuracy of trajectories affects the distribution and the correlation structure of lane-changing model parameters (i.e. drivers heterogeneity), while it has very little impact on car-following calibration. At the scale of traffic simulation, when models interact in trace-driven simulation of the 180 scenario (multi-lane heterogeneous traffic), their ability to reproduce the observed macroscopic congested patterns is sensibly higher when model parameters from reconstructed trajectories are applied. These results are mainly due to lane changing, and are also the sought indirect validation of the proposed data reconstruction methodology. (C) 2015 Elsevier Ltd. All rights reserved.
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