Trend-Enhanced Variate Transformer for Vessel Trajectory Prediction by Exploiting Short-Term Behavior Distribution Differences at Intersections

随机变量 弹道 期限(时间) 变压器 计算机科学 统计 工程类 数学 随机变量 电气工程 电压 物理 天文 量子力学
作者
Chuiyi Deng,Shuangxin Wang,Junwei Li,Jingyi Liu,Hongrui Li,Zhuoyi Zhao,Yanyin Guo,Mingli Song
出处
期刊:IEEE Transactions on Instrumentation and Measurement [Institute of Electrical and Electronics Engineers]
卷期号:74: 1-16 被引量:5
标识
DOI:10.1109/tim.2025.3552875
摘要

The automatic identification system (AIS) extends traditional measurement methods, enabling real-time situational awareness at intersections. However, most methods rely on extensive historical data from multiple intersections, which conflicts with the limited sensing range of onboard measurement. Moreover, state-of-the-art (SOTA) models suffer from error accumulation, high prediction uncertainty, and inadequate global variate modeling, limiting trend awareness and generalization across measurement scales. To overcome these, we propose iTentformer, an encoder-only model focusing on short-term vessel behavior at intersection waterways. Key innovations include: 1) a variate-centered encoder (VE) to capture distribution differences before intersections and 2) integration of the predicted course as a trend prior, highlighting pattern changes before intersections. These components are optimized through variate representation fusion and multitask learning. Extensive experiments show that iTentformer reduces average displacement error (ADE) by 35% and final displacement error (FDE) by 30% compared to SOTA Transformer-based models, improving trajectory abstraction and reducing estimation uncertainty through strong trend awareness. Notably, vessel navigational status at intersections significantly impacts measurement distribution. Additionally, its improved remaining useful life (RUL) prediction highlights its potential for broader measurement applications. The code is available at github.com/dengfa02/iTentformer.
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