To predict vulnerable traffic participant (VTP) trajectory can help autonomous vehicles avoid collisions and improve driving safety. This article systematically explores VTP trajectory prediction, utilizing the gate recurrent unit (GRU)-Attention and Ameliorative social force model (SFM). First, a GRU-Attention (GRU-ATT) is proposed for predicting VTPs’ trajectories. VTP heterogeneity and intention, VTP–VTP–Vehicle interactions are considered. Attention is developed to calculate the corresponding attention scores of the above mentioned factors. Second, to have a good understanding of the social behaviors of VTPs, an ASFM based on the social psychology is presented, and the influences of VTP, vehicle, crosswalk boundary, and traffic lights are considered. Moreover, to improve the accuracy of VTP trajectory prediction, a fusion model based on the GRU-ATT and ASFM is proposed. In the fusion process, to accurately calibrate the non-measurable parameters and prevent the model from overfitting, the maximum likelihood estimation (MLE) is used. Finally, the verified experiments of the fusion model are presented, which demonstrate superior performance compared to the existing methods. The accuracy of VTP trajectory prediction is improved by more than 12%, which makes the fusion model applicable in the autonomous vehicle field for improving VTP-Vehicle safety.
Vulnerable Traffic Participant Trajectory Prediction Based on Gate Recurrent Unit-Attention and Ameliorative Social Force Model
IEEE Transactions on Transportation Electrification ; 10 , 4 ; 9396-9405
2024-12-01
16251021 byte
Article (Journal)
Electronic Resource
English
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