Litcius/Paper detail

HUTFormer: Hierarchical U-Net transformer for long-term traffic forecasting

Zezhi Shao, Fei Wang, Tao Sun, Chengqing Yu, Yuchen Fang, Guangyin Jin, Zhenghua An, Yang Liu, Xiaobo Qu, Yongjun Xu

2025Communications in Transportation Research15 citationsDOIOpen Access PDF

Abstract

Traffic forecasting, which aims to predict traffic conditions based on historical observations, has been an enduring research topic and is widely recognized as an essential component of intelligent transportation. Recent proposals on Spatial-Temporal Graph Neural Networks (STGNNs) have made significant progress by combining sequential models with graph convolution networks. However, due to high complexity issues, STGNNs only focus on short-term traffic forecasting (e.g., 1-h ahead), while ignoring more practical long-term forecasting. In this paper, we make the first attempt to explore long-term traffic forecasting (e.g., 1-day ahead). To this end, we first reveal its unique challenges in exploiting multi-scale representations. Then, we propose a novel Hierarchical U-net TransFormer (HUTFormer) to address the issues of long-term traffic forecasting. HUTFormer consists of a hierarchical encoder and decoder to jointly generate and utilize multi-scale representations of traffic data. Specifically, for the encoder, we propose window self-attention and segment merging to extract multi-scale representations from long-term traffic data. For the decoder, we design a cross-scale attention mechanism to effectively incorporate multi-scale representations. In addition, HUTFormer employs an efficient input embedding strategy to address the complexity issues. Extensive experiments on four traffic datasets show that the proposed HUTFormer significantly outperforms state-of-the-art traffic forecasting and long time series forecasting baselines.

Topics & Concepts

Computer scienceEncoderGraphEmbeddingArtificial intelligenceArtificial neural networkFocus (optics)TransformerData miningComponent (thermodynamics)Machine learningTime seriesTraffic generation modelIntelligent transportation systemTraffic congestionTraffic analysisData modelingDemand forecastingConvolution (computer science)Traffic speedNetwork traffic simulationTraffic Prediction and Management TechniquesAdvanced Graph Neural NetworksHuman Mobility and Location-Based Analysis