Latent Factorization of Tensors with Threshold Distance Weighted Loss for Traffic Data Estimation

Intelligent transportation systems (ITS) rely heavily on comp lete and high - quality spatiotemporal traffic data to achieve optimal performance. Nevertheless, in real - word traffic data collection processes, issues such as communication failures and sensor malfunctions often lead to incomplete or corrupted datasets, th ereby posing significant challenges to the advancement of ITS. Among various methods for imputing missing spatiotemporal traffic data, the latent factorization of tensors (LFT) model has emerged as a widely adopted and effective solution. However, conventi onal LFT models typically employ the standard L 2 - norm in their learning objective, which makes them vulnerable to the influence of outliers. To overcome this limitation, this paper proposes a threshold distance weighted (TDW) loss - incorporated Latent Facto ri zation of Tensors ( TDW LFT) model . The proposed loss function effectively reduces the model's sensitivity to outliers by assigning differentiated weights to individual samples. Extensive experiments conducted on two traffic speed datasets sourced from div erse urban environments confirm that the proposed TDW LFT model consistently outperforms state - of - the - art approaches in terms of both in both prediction accuracy and computational efficiency .