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Main Authors: Cheshmi, Leila, Siam, Mennatullah
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.14729
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author Cheshmi, Leila
Siam, Mennatullah
author_facet Cheshmi, Leila
Siam, Mennatullah
contents Ensuring safety in autonomous driving is a complex challenge requiring handling unknown objects and unforeseen driving scenarios. We develop multiscale video transformers capable of detecting unknown objects using only motion cues. Video semantic and panoptic segmentation often relies on known classes seen during training, overlooking novel categories. Recent visual grounding with large language models is computationally expensive, especially for pixel-level output. We propose an efficient video transformer trained end-to-end for class-agnostic segmentation without optical flow. Our method uses multi-stage multiscale query-memory decoding and a scale-specific random drop-token to ensure efficiency and accuracy, maintaining detailed spatiotemporal features with a shared, learnable memory module. Unlike conventional decoders that compress features, our memory-centric design preserves high-resolution information at multiple scales. We evaluate on DAVIS'16, KITTI, and Cityscapes. Our method consistently outperforms multiscale baselines while being efficient in GPU memory and run-time, demonstrating a promising direction for real-time, robust dense prediction in safety-critical robotics.
format Preprint
id arxiv_https___arxiv_org_abs_2508_14729
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Multiscale Video Transformers for Class Agnostic Segmentation in Autonomous Driving
Cheshmi, Leila
Siam, Mennatullah
Computer Vision and Pattern Recognition
Ensuring safety in autonomous driving is a complex challenge requiring handling unknown objects and unforeseen driving scenarios. We develop multiscale video transformers capable of detecting unknown objects using only motion cues. Video semantic and panoptic segmentation often relies on known classes seen during training, overlooking novel categories. Recent visual grounding with large language models is computationally expensive, especially for pixel-level output. We propose an efficient video transformer trained end-to-end for class-agnostic segmentation without optical flow. Our method uses multi-stage multiscale query-memory decoding and a scale-specific random drop-token to ensure efficiency and accuracy, maintaining detailed spatiotemporal features with a shared, learnable memory module. Unlike conventional decoders that compress features, our memory-centric design preserves high-resolution information at multiple scales. We evaluate on DAVIS'16, KITTI, and Cityscapes. Our method consistently outperforms multiscale baselines while being efficient in GPU memory and run-time, demonstrating a promising direction for real-time, robust dense prediction in safety-critical robotics.
title Multiscale Video Transformers for Class Agnostic Segmentation in Autonomous Driving
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2508.14729