METS: Motion-Encoded Time-Surface for Event-Based High-Speed Pose Tracking

IF 11.6 2区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

International Journal of Computer Vision Pub Date : 2025-03-05 DOI:10.1007/s11263-025-02379-6

Ninghui Xu, Lihui Wang, Zhiting Yao, Takayuki Okatani

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引用次数: 0

Abstract

We present a novel event-based representation, named Motion-Encoded Time-Surface (METS), and how it can be used to address the challenge of pose tracking under high-speed scenarios with an event camera. The core concept is dynamically encoding the pixel-wise decay rate of the Time-Surface to account for localized spatio-temporal scene dynamics captured by events, rendering remarkable adaptability with respect to motion dynamics. The consistency between METS and the scene in highly dynamic conditions establishes a reliable foundation for robust pose estimation. Building upon this, we employ a semi-dense 3D-2D alignment pipeline to fully unlock the potential of the event camera for high-speed tracking applications. Given the intrinsic characteristics of METS, we further develop specialized lightweight operations aimed at minimizing the per-event computational cost. The proposed algorithm is successfully evaluated on public datasets and our high-speed motion datasets covering various scenes and motion complexities. It shows that our approach outperforms state-of-the-art pose tracking methods, especially in highly dynamic scenarios, and is capable of tracking accurately under incredibly fast motions that are inaccessible for other event- or frame-based counterparts. Due to its simplicity, our algorithm exhibits outstanding practicality, running at over 70 Hz on a standard CPU.

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基于事件的高速姿态跟踪的运动编码时间曲面

我们提出了一种新的基于事件的表示，称为运动编码时间表面（METS），以及如何使用它来解决高速场景下使用事件相机进行姿态跟踪的挑战。核心概念是对Time-Surface的逐像素衰减率进行动态编码，以考虑事件捕获的局部时空场景动态，从而对运动动力学具有显著的适应性。在高动态条件下，METS与场景之间的一致性为鲁棒姿态估计奠定了可靠的基础。在此基础上，我们采用半密集的3D-2D对齐管道，以充分释放事件相机用于高速跟踪应用的潜力。鉴于METS的固有特征，我们进一步开发了专门的轻量级操作，旨在最大限度地减少每个事件的计算成本。该算法在公共数据集和我们的高速运动数据集上成功地进行了评估，这些数据集涵盖了各种场景和运动复杂性。这表明，我们的方法优于最先进的姿势跟踪方法，特别是在高度动态的场景中，并且能够在其他基于事件或帧的对应对象无法实现的令人难以置信的快速运动下准确跟踪。由于其简单性，我们的算法表现出出色的实用性，在标准CPU上运行速度超过70 Hz。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Computer Vision 工程技术-计算机：人工智能

CiteScore

29.80

自引率

2.10%

发文量

163

审稿时长

6 months

期刊介绍： The International Journal of Computer Vision (IJCV) serves as a platform for sharing new research findings in the rapidly growing field of computer vision. It publishes 12 issues annually and presents high-quality, original contributions to the science and engineering of computer vision. The journal encompasses various types of articles to cater to different research outputs. Regular articles, which span up to 25 journal pages, focus on significant technical advancements that are of broad interest to the field. These articles showcase substantial progress in computer vision. Short articles, limited to 10 pages, offer a swift publication path for novel research outcomes. They provide a quicker means for sharing new findings with the computer vision community. Survey articles, comprising up to 30 pages, offer critical evaluations of the current state of the art in computer vision or offer tutorial presentations of relevant topics. These articles provide comprehensive and insightful overviews of specific subject areas. In addition to technical articles, the journal also includes book reviews, position papers, and editorials by prominent scientific figures. These contributions serve to complement the technical content and provide valuable perspectives. The journal encourages authors to include supplementary material online, such as images, video sequences, data sets, and software. This additional material enhances the understanding and reproducibility of the published research. Overall, the International Journal of Computer Vision is a comprehensive publication that caters to researchers in this rapidly growing field. It covers a range of article types, offers additional online resources, and facilitates the dissemination of impactful research.