Holistic Interpretation of Public Scenes Using Computer Vision and Temporal Graphs to Identify Social Distancing Violations

The COVID-19 pandemic has caused an unprecedented global public health crisis. Given its inherent nature, social distancing measures are proposed as the primary strategies to curb the spread of this pandemic. Therefore, identifying situations where these protocols are violated, has implications for...

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Veröffentlicht in:	arXiv.org 2022-08
Hauptverfasser:	Jayatilaka, Gihan, Hassan, Jameel, Sritharan, Suren, Janith Bandara Senananayaka, Weligampola, Harshana, Godaliyadda, Roshan, Ekanayake, Parakrama, Herath, Vijitha, Ekanayake, Janaka, Dharmaratne, Samath
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Sprache:	eng
Schlagworte:	Computer vision Coronaviruses COVID-19 Disease control Group dynamics Pandemics Protective clothing Public health Social distancing Sustainability Vision systems
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creator	Jayatilaka, Gihan Hassan, Jameel Sritharan, Suren Janith Bandara Senananayaka Weligampola, Harshana Godaliyadda, Roshan Ekanayake, Parakrama Herath, Vijitha Ekanayake, Janaka Dharmaratne, Samath
description	The COVID-19 pandemic has caused an unprecedented global public health crisis. Given its inherent nature, social distancing measures are proposed as the primary strategies to curb the spread of this pandemic. Therefore, identifying situations where these protocols are violated, has implications for curtailing the spread of the disease and promoting a sustainable lifestyle. This paper proposes a novel computer vision-based system to analyze CCTV footage to provide a threat level assessment of COVID-19 spread. The system strives to holistically capture and interpret the information content of CCTV footage spanning multiple frames to recognize instances of various violations of social distancing protocols, across time and space, as well as identification of group behaviors. This functionality is achieved primarily by utilizing a temporal graph-based structure to represent the information of the CCTV footage and a strategy to holistically interpret the graph and quantify the threat level of the given scene. The individual components are tested and validated on a range of scenarios and the complete system is tested against human expert opinion. The results reflect the dependence of the threat level on people, their physical proximity, interactions, protective clothing, and group dynamics. The system performance has an accuracy of 76%, thus enabling a deployable threat monitoring system in cities, to permit normalcy and sustainability in the society.
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subjects	Computer vision Coronaviruses COVID-19 Disease control Group dynamics Pandemics Protective clothing Public health Social distancing Sustainability Vision systems
title	Holistic Interpretation of Public Scenes Using Computer Vision and Temporal Graphs to Identify Social Distancing Violations
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