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Al-Nawashi M, Al-Hazaimeh OM, Saraee M. A novel framework for intelligent surveillance system based on abnormal human activity detection in academic environments. Neural Comput Appl. 2016;28:565-572doi: 10.1007/s00521-016-2363-z.
Al-Nawashi, M., Al-Hazaimeh, O. M., & Saraee, M. (2017). A novel framework for intelligent surveillance system based on abnormal human activity detection in academic environments. Neural computing & applications, 28565-572. https://doi.org/10.1007/s00521-016-2363-z
Al-Nawashi, Malek, et al. "A novel framework for intelligent surveillance system based on abnormal human activity detection in academic environments." Neural computing & applications vol. 28 (2017): 565-572. doi: https://doi.org/10.1007/s00521-016-2363-z
Al-Nawashi M, Al-Hazaimeh OM, Saraee M. A novel framework for intelligent surveillance system based on abnormal human activity detection in academic environments. Neural Comput Appl. 2017;28:565-572. doi: 10.1007/s00521-016-2363-z. Epub 2016 Jun 03. PMID: 29213188; PMCID: PMC5700236.
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Neural Comput Appl. 2017;28:565-572. doi: 10.1007/s00521-016-2363-z. Epub 2016 Jun 03.

A novel framework for intelligent surveillance system based on abnormal human activity detection in academic environments.

Neural computing & applications

Malek Al-Nawashi, Obaida M Al-Hazaimeh, Mohamad Saraee

Affiliations

  1. Al-Balqa' Applied University, Irbid, Jordan.

PMID: 29213188 PMCID: PMC5700236 DOI: 10.1007/s00521-016-2363-z

Abstract

Abnormal activity detection plays a crucial role in surveillance applications, and a surveillance system that can perform robustly in an academic environment has become an urgent need. In this paper, we propose a novel framework for an automatic real-time video-based surveillance system which can simultaneously perform the tracking, semantic scene learning, and abnormality detection in an academic environment. To develop our system, we have divided the work into three phases: preprocessing phase, abnormal human activity detection phase, and content-based image retrieval phase. For motion object detection, we used the temporal-differencing algorithm and then located the motions region using the Gaussian function. Furthermore, the shape model based on OMEGA equation was used as a filter for the detected objects (i.e., human and non-human). For object activities analysis, we evaluated and analyzed the human activities of the detected objects. We classified the human activities into two groups: normal activities and abnormal activities based on the support vector machine. The machine then provides an automatic warning in case of abnormal human activities. It also embeds a method to retrieve the detected object from the database for object recognition and identification using content-based image retrieval. Finally, a software-based simulation using MATLAB was performed and the results of the conducted experiments showed an excellent surveillance system that can simultaneously perform the tracking, semantic scene learning, and abnormality detection in an academic environment with no human intervention.

Keywords: Abnormal activity detection; Computer simulation; MATLAB programming; OMEGA equation; Support vector machines (SVM); Surveillance system

References

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