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A Video-based Detector for Suspicious Activity in Examination with OpenPose
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A Video-based Detector for Suspicious Activity in Examination with OpenPose
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Examinations are a crucial part of the learning process, and academic institutions invest significant resources into maintaining their integrity by preventing cheating from students or facilitators. However, cheating has become rampant in examination setups, compromising their integrity. The traditional method of relying on invigilators to monitor every student is impractical and ineffective. To address this issue, there is a need to continuously record exam sessions to monitor students for suspicious activities. However, these recordings are often too lengthy for invigilators to analyze effectively, and fatigue may cause them to miss significant details. To widen the coverage, invigilators could use fixed overhead or wearable cameras. This paper introduces a framework that uses automation to analyze videos and detect suspicious activities during examinations efficiently and effectively. We utilized the OpenPose framework and Convolutional Neural Network (CNN) to identify students exchanging objects during exams. This detection system is vital in preventing cheating and promoting academic integrity, fairness, and quality education for institutions.
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Cited by 1 Pith paper
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A Two-Stage, Object-Centric Deep Learning Framework for Robust Exam Cheating Detection
A two-stage pipeline using YOLOv8n for student localization and RexNet-150 for behavior classification achieves 0.95 accuracy on 273,897 samples from 10 sources, with 13.9 ms inference time.
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