TrajectoFormer: Transformer-Based Trajectory Prediction of Autonomous Vehicles with Spatio-temporal Neighborhood Considerations

Abstract

Accurate trajectory prediction of autonomous vehicles is crucial for ensuring road safety. Predicting precise and accurate trajectories is still considered a challenging problem because of the intricate spatio-temporal dependencies among the vehicles. Our study primarily focuses on resolving this issue by introducing a comprehensive system called “TrajectoFormer”, which can effectively represent the spatio-temporal dependency between vehicles. In this system, we have conducted preprocessing on the NGSIM dataset by constructing an 8-neighborhood for each vehicle that represents the spatio-temporal dependency between vehicles effectively. Second, we have deployed a transformer network that captures dependencies between the target vehicle and its neighbor from the constructed neighborhood and predicts future trajectories for the target vehicle with notably reduced training times and significant accuracy compared to existing methods. Experiments on both NGSIM US-101 and US-I80 show that our proposed approach outperforms the other benchmarks in terms of showing low RMSE value for the 5-s prediction horizon of trajectory prediction. Our conducted ablation study also underscores the effectiveness of each component of our proposed TrajectoFormer model relative to traditional time-series prediction models.