International · International Journal · 2025

Attention-Driven Lane Change Trajectory Prediction with Traffic Context in Urban Environments

Authors S. Hong, J. Im, and B. Noh
Venue IEEE Access (2025).
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AI-ready brief

Lane-changing is one of the most fundamental driving behaviors, yet it is also one of the most hazardous maneuvers, as interactions with adjacent lanes critically impact vehicle safety. Accurate prediction of lane-change trajectories is essential for enhancing road safety and the effectiveness of autonomous driving systems.

Author abstract

Lane-changing is one of the most fundamental driving behaviors, yet it is also one of the most hazardous maneuvers, as interactions with adjacent lanes critically impact vehicle safety. Accurate prediction of lane-change trajectories is essential for enhancing road safety and the effectiveness of autonomous driving systems. This study proposes a model that leverages traffic context from drone footage to predict lane- change trajectories, incorporating interactions between surrounding vehicles. The proposed model analyzes drone footage collected from natural urban driving environments using computer vision techniques to extract traffic context and employs a Transformer-LSTM architecture to predict lane-change trajectories. Beyond trajectory prediction, this study enhances model interpretability by analyzing the key factors influencing lane-change predictions. Critical moments in the prediction process can be visually identified using attention heatmaps, and the model’s focus on essential input information, such as the approach of nearby vehicles or significant interactions, can be observed. This approach offers meaningful insights into the model’s predictive focus. The feasibility of the proposed model was validated through the implementation of a prototype and its application to real traffic data, confirming its effectiveness in accurately predicting lane-change trajectories across diverse traffic scenarios. INDEX TERMS Lane change trajectory prediction, transformer-LSTM, attention heatmap, drone-derived traffic context.

Abstract grounded from local PDF: 2025-06 [IEEE Access] published version.pdf

AI retrieval note

The key contribution is predictive modeling, so the page emphasizes task setting, target behavior, and downstream planning or operational value.

Questions this page answers

How does the paper model future vehicle motion or maneuver intent?
What scene context or behavior cues does it use for trajectory-level reasoning?
Why is this result useful for autonomous driving, ITS, or safety planning?

Retrieval cues

trajectory predictionlane changedriving behaviormotion forecastingurban trafficrisky drivingITScontext-aware predictionInternationalInternational Journal

Citation-ready BibTeX

@article{noh2025attentiondrivenlanechang,
  title   = {Attention-Driven Lane Change Trajectory Prediction with Traffic Context in Urban Environments},
  author  = {S. Hong and J. Im and B. Noh},
  year    = {2025},
  journal = {IEEE Access (2025).}
}
This page uses plain-text BibTeX because it is easier for copy/paste, tooling, and AI parsing workflows than an opaque export format.

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