空间态势感知中基于事件的噪声滤波与兴趣点检测与跟踪

Proceedings of the 2020 2nd International Conference on Intelligent Medicine and Image Processing Pub Date : 2020-04-23 DOI:10.1145/3399637.3399656

Nikolaus Salvatore, A. George

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引用次数: 0

摘要

本文探讨了一种异步噪声抑制技术，该技术将与动态视觉传感器(DVS)数据上的异步高斯斑点跟踪结合使用，特别是用于基于空间的目标跟踪。该技术将每个传感器像素视为一个峰值单元，其活动可以通过用户定义的阈值从产生的传感器事件流中过滤出来。在空间环境中，辐射效应会在分布式交换机事件流中引入瞬态和持久性噪声。对于空间应用，感兴趣的目标可能不大于单个像素，并且与传感器噪声无法区分。在本文中，实验比较了异步方法与用于重构帧数据的传统方法的性能和精度指标。研究结果表明，异步方法可以产生相当或更高的跟踪精度，同时还可以将流程的执行时间平均减少七倍。

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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Event-Based Noise Filtration with Point-of-Interest Detection and Tracking for Space Situational Awareness

This paper explores an asynchronous noise-suppression technique to be used in conjunction with asynchronous Gaussian blob tracking on dynamic vision sensor (DVS) data, specifically for space-based object tracking. The technique presented treats each sensor pixel as a spiking cell whose activity can be filtered out of the resulting sensor event stream by user-defined threshold values. In the space environment, radiation effects can introduce both transient and persistent noise into the DVS event stream. For space applications, targets of interest may be no larger than a single pixel and can be indistinguishable from sensor noise. In this paper, the asynchronous approach is experimentally compared to a conventional approach applied to reconstructed frame data for both performance and accuracy metrics. The results of this research show that the asynchronous approach can produce comparable or superior tracking accuracy while also drastically reducing the execution time of the process by seven times on average.

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Proceedings of the 2020 2nd International Conference on Intelligent Medicine and Image Processing

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