EventHDR:从事件到高速 HDR 视频及其他。

Yunhao Zou, Ying Fu, Tsuyoshi Takatani, Yinqiang Zheng
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引用次数: 0

摘要

事件相机是一种创新的神经形态传感器,可异步捕捉场景动态。由于采用了事件触发机制,与传统相机相比,这类相机记录事件流的响应延迟更短,强度灵敏度更高。基于这些特点,以前的研究曾尝试从事件中重建高动态范围(HDR)视频,但要么出现不真实的伪影,要么无法提供足够高的帧率。在本文中,我们提出了一种循环卷积神经网络,可从事件序列重建高速 HDR 视频,并通过关键帧引导来防止稀疏事件数据造成的潜在误差累积。此外,为了解决真实数据集非常有限的问题,我们开发了一种新的光学系统,以收集真实世界中高速 HDR 视频和事件流的配对数据集,从而促进该领域未来的研究。我们的数据集为事件到 HDR 重建提供了首个真实配对数据集,避免了模拟策略可能带来的不准确性。实验结果表明,我们的方法可以生成高质量、高速的 HDR 视频。我们进一步探索了我们的工作在跨相机重建和下游计算机视觉任务中的潜力,包括对象检测、全景分割、光流估计和 HDR 场景下的单目深度估计。
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EventHDR: From Event to High-Speed HDR Videos and Beyond.

Event cameras are innovative neuromorphic sensors that asynchronously capture the scene dynamics. Due to the event-triggering mechanism, such cameras record event streams with much shorter response latency and higher intensity sensitivity compared to conventional cameras. On the basis of these features, previous works have attempted to reconstruct high dynamic range (HDR) videos from events, but have either suffered from unrealistic artifacts or failed to provide sufficiently high frame rates. In this paper, we present a recurrent convolutional neural network that reconstruct high-speed HDR videos from event sequences, with a key frame guidance to prevent potential error accumulation caused by the sparse event data. Additionally, to address the problem of severely limited real dataset, we develop a new optical system to collect a real-world dataset with paired high-speed HDR videos and event streams, facilitating future research in this field. Our dataset provides the first real paired dataset for event-to-HDR reconstruction, avoiding potential inaccuracies from simulation strategies. Experimental results demonstrate that our method can generate high-quality, high-speed HDR videos. We further explore the potential of our work in cross-camera reconstruction and downstream computer vision tasks, including object detection, panoramic segmentation, optical flow estimation, and monocular depth estimation under HDR scenarios.

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