Recently, bio-inspired event cameras have seen increased use for object detection in autonomous driving due to their advantages of high temporal resolution and high dynamic range. However, how to leverage the high-speed and asynchronous characteristics of event streams to achieve accurate and robust detection within low end-to-end latency remains a key unresolved issue. Prior methods not only struggle with high latency but also encounter difficulties in robustly detecting objects at varying speeds. In this paper, we propose a novel dense-to-sparse event-based object detection framework called DTSDNet. The event temporal image is first proposed to preserve motion and temporal information in the event stream. Then, rich spatial features from the dense pathway are integrated into the sparse pathway through the attention-based dual-pathway aggregation module. To assess the speed robustness of the model and event representation, we propose a simple yet effective relative speed estimation method. The experimental results demonstrate that the model and event representation can achieve state-of-the-art (SOTA) detection performance and superior speed robustness on the event-based object detection datasets. Moreover, this dense-to-sparse framework can reduce the accumulation time of the event stream by a factor of 5 (from 50 ms to 10 ms) while maintaining SOTA detection performance, meeting the low-latency requirements of perception in real-time driving.


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    Title :

    From Dense to Sparse: Low-Latency and Speed-Robust Event-Based Object Detection


    Contributors:
    Fan, Liangwei (author) / Li, Yulin (author) / Shen, Hui (author) / Li, Jian (author) / Hu, Dewen (author)

    Published in:

    Publication date :

    2024-10-01


    Size :

    6582181 byte




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




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