Clock-based time sync hronization for an event-based camera dataset acquisition platform *

V. Osadcuks, Mihails Pudzs, A. Zujevs, A. Pecka, Arturs Ardavs
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引用次数: 5

Abstract

The Dynamic Visual Sensor is considered to be a next-generation vision sensor. Since event-based vision is in its early stage of development, a small number of datasets has been created during the last decade. Dataset creation is motivated by the need for real data from one or many sensors. Temporal accuracy of data in such datasets is crucially important since the events have high temporal resolution measured in microseconds and, during an algorithm evaluation task, such type of visual data is usually fused with data from other types of sensors. The main aim of our research is to achieve the most accurate possible time synchronization between an event camera, LIDAR, and ambient environment sensors during a session of data acquisition. All the mentioned sensors as well as a stereo and a monocular camera were installed on a mobile robotic platform. In this work, a time synchronization architecture and algorithm are proposed for time synchronization with an implementation example on a PIC32 microcontroller. The overall time synchronization approach is scalable for other sensors where there is a need for accurate time synchronization between many nodes. The evaluation results of the proposed solution are reported and discussed in the paper.
基于时钟的时间同步事件相机数据采集平台*
动态视觉传感器被认为是下一代视觉传感器。由于基于事件的视觉还处于发展的早期阶段,在过去十年中已经创建了少量的数据集。数据集创建的动机是需要来自一个或多个传感器的真实数据。此类数据集中数据的时间精度至关重要,因为事件具有以微秒为单位测量的高时间分辨率,并且在算法评估任务期间,此类视觉数据通常与来自其他类型传感器的数据融合在一起。我们研究的主要目的是在数据采集过程中实现事件相机、激光雷达和环境传感器之间尽可能精确的时间同步。上述所有传感器以及立体和单目摄像机都安装在移动机器人平台上。本文提出了一种时间同步的体系结构和算法,并给出了在PIC32微控制器上实现的实例。整体时间同步方法可扩展到需要在许多节点之间进行精确时间同步的其他传感器。本文报告并讨论了该方案的评价结果。
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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