Enhancing AMBER alert using collaborative edges: poster

Proceedings of the Second ACM/IEEE Symposium on Edge Computing Pub Date : 2017-10-12 DOI:10.1145/3132211.3132459

Qingyang Zhang, Quan Zhang, Weisong Shi, Hong Zhong

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引用次数: 11

Abstract

AMBER alert systems are inefficient since object searching heavily relies on reports of witnesses, who might miss alerts and cannot search enough areas of city. Using automatic license plate recognition (ALPR) technique, city-wide video surveillance is of great improvement for vehicle searching. However, analyzing huge amount of video data in the cloud leads to vast cost of data transmission and high response latency. Edge computing as an emerging computing paradigm can significantly reduce the cost of data transmission and response latency for latency-sensitive applications due to the data processing at the proximity of data sources. In this poster, we propose an enhanced AMBER alert system using collaborative edges, called AMBER Alert Assistant (A3 in short), which can search the suspect vehicle by analyzing static and mobile cameras' data in real time fashion. We propose location-direction-related diffusion that effectively optimizes the searching area for vehicle searching. The evaluation results show that real-time video analytics can be achieved by collaboratively leveraging multiple edge nodes.

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利用协作优势增强AMBER警报:海报

安珀警报系统效率低下，因为搜索目标严重依赖目击者的报告，而目击者可能会错过警报，无法搜索城市的足够区域。采用车牌自动识别(ALPR)技术，城市范围内的视频监控对车辆搜索有很大的提高。然而，在云中分析海量的视频数据，导致了巨大的数据传输成本和高响应延迟。边缘计算作为一种新兴的计算范式，由于在数据源附近进行数据处理，可以显著降低对延迟敏感的应用程序的数据传输成本和响应延迟。在这张海报中，我们提出了一个使用协同边缘的增强型AMBER警报系统，称为AMBER alert Assistant(简称A3)，它可以通过实时分析静态和移动摄像头的数据来搜索可疑车辆。提出了一种与位置方向相关的扩散算法，可以有效地优化车辆搜索的搜索区域。评估结果表明，通过协同利用多个边缘节点，可以实现实时视频分析。

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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Proceedings of the Second ACM/IEEE Symposium on Edge Computing

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