Predict and Resist: Long-Term Accident Anticipation Under Sensor Noise
DOI:
https://doi.org/10.1609/aaai.v40i1.37045Abstract
Accident anticipation is essential for proactive and safe autonomous driving, where even a brief advance warning can enable critical evasive actions. However, two key challenges hinder real-world deployment: (1) noisy or degraded sensory inputs from weather, motion blur, or hardware limitations, and (2) the need to issue timely yet reliable predictions that balance early alerts with false-alarm suppression. We propose a unified framework that integrates diffusion-based denoising with a time-aware actor-critic model to address these challenges. The diffusion module reconstructs noise-resilient image and object features through iterative refinement, preserving critical motion and interaction cues under sensor degradation. In parallel, the actor-critic architecture leverages long-horizon temporal reasoning and time-weighted rewards to determine the optimal moment to raise an alert, aligning early detection with reliability. Experiments on three benchmark datasets (DAD, CCD, A3D) demonstrate state-of-the-art accuracy and significant gains in mean time-to-accident, while maintaining robust performance under Gaussian and impulse noise. Qualitative analyses further show that our model produces earlier, more stable, and human-aligned predictions in both routine and highly complex traffic scenarios, highlighting its potential for real-world, safety-critical deployment.
Published
2026-03-14
How to Cite
Liu, X., Rao, B., Guan, Y., Wang, C., Liao, H., Zhang, J., Lin, C., Zhu, M., & Li, Z. (2026). Predict and Resist: Long-Term Accident Anticipation Under Sensor Noise. Proceedings of the AAAI Conference on Artificial Intelligence, 40(1), 782-790. https://doi.org/10.1609/aaai.v40i1.37045
Issue
Section
AAAI Technical Track on Application Domains I
