المفاهيم الأساسية
A global-to-local generation approach that mitigates the accumulated error, introduces spatial-temporal constraints among future steps, and selects the optimal granularity for each trajectory to enhance prediction accuracy and kinematic feasibility.
الملخص
The paper proposes a global-to-local generation approach, called G2LTraj, for trajectory prediction. The key ideas are:
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Global Key Step Generation:
- Generate a series of global key steps that uniformly cover the entire future time range.
- Introduce spatial constraints among the key steps to ensure kinematic feasibility.
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Local Recursive Generation:
- Fill in the intermediate steps between adjacent key steps recursively.
- Incorporate agent features and position embeddings to strengthen the temporal constraints among intermediate steps.
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Selectable Granularity Strategy:
- Generate key steps at a fine granularity and downsample them to form multiple groups.
- Learn the confidence scores of these groups for each trajectory and select the optimal one.
The proposed G2LTraj framework is evaluated on three widely-used datasets (ETH, UCY, and nuScenes) and demonstrates significant performance improvements over seven existing trajectory predictors in terms of average displacement error (ADE) and final displacement error (FDE). Ablation studies validate the effectiveness of the key components.
الإحصائيات
The average L2 distance between the predicted trajectory coordinates and the ground truth coordinates (ADE) can be reduced by up to 12.12%.
The L2 distance between the final predicted destination coordinates and the ground truth (FDE) can be reduced by up to 13.27%.
اقتباسات
"To balance the accumulated error and the constraints among future steps, [Jia et al., 2023a] simultaneously generates all future steps and utilizes a recursive network for trajectory refinement. Nonetheless, during refinement, the accumulated error still propagates from the initial step to the final step."
"To tackle the above issues, in this paper, we propose G2LTraj, a plug-and-play global-to-local generation approach for trajectory prediction."