使用计算机视觉量化社会距离依从性和行为干预的效果

Proceedings of the Workshop on Data-Driven and Intelligent Cyber-Physical Systems Pub Date : 2021-05-18 DOI:10.1145/3459609.3460523

Derek Gloudemans, N. Gloudemans, M. Abkowitz, William Barbour, D. Work

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引用次数: 2

摘要

在2019冠状病毒病大流行期间，保持社交距离已成为一个紧迫而具有挑战性的问题。在智慧城市的背景下，使用网络摄像机和计算机视觉分析来测量人际距离成为可能。我们部署了一个基于retanet的计算机视觉管道，可以识别流视频帧中的行人，然后将他们的位置转换为GPS坐标，用于距离计算和进一步分析。这种处理应用于范德比尔特大学周围三个地点的九个摄像机流。我们在两周的时间内收集了70小时的基线距离数据，之后我们在三个地点部署了小型行为干预措施，旨在提高距离依从性。另外70个小时的干预措施数据将与基线数据进行分析，以确定它们是否对距离依从性产生影响。

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Quantifying social distancing compliance and the effects of behavioral interventions using computer vision

Social distancing has become a pressing and challenging issue during the Covid-19 pandemic. In a smart cities context, it becomes possible to measure inter-personal distance using networked cameras and computer vision analysis. We deploy a computer vision pipeline based on Retinanet that identifies pedestrians in streaming video frames, then converts their positions to GPS coordinates for distance calculation and further analysis. This processing is applied to nine camera streams at three locations from around Vanderbilt University. We collect 70 hours of baseline distancing data over the course of two weeks, after which time we deploy small behavioral interventions at the three locations aimed at increasing distancing compliance. Another 70 hours of data with the interventions in place will be analyzed against the baseline data to determine if they had an effect on distancing compliance.

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Proceedings of the Workshop on Data-Driven and Intelligent Cyber-Physical Systems

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