Mayfly Optimization with Deep Learning-based Robust Object Detection and Classification on Surveillance Videos

IF 1.5 0 ENGINEERING, MULTIDISCIPLINARY Engineering, Technology & Applied Science Research Pub Date : 2023-10-13 DOI:10.48084/etasr.6231
Venkatesan Saikrishnan, Mani Karthikeyan
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Abstract

Surveillance videos are recordings captured by video recording devices for monitoring and securing an area or property. These videos are frequently used in applications, involving law enforcement, security systems, retail analytics, and traffic monitoring. Surveillance videos can provide valuable visual information for analyzing patterns, identifying individuals or objects of interest, and detecting and investigating incidents. Object detection and classification on video surveillance involves the usage of computer vision techniques to identify and categorize objects within the video footage. Object detection algorithms are employed to locate and identify objects within each frame. These algorithms use various techniques, namely bounding box regression, Convolutional Neural Networks (CNNs), and feature extraction to detect objects of interest. This study presents the Mayfly Optimization with Deep Learning-based Robust Object Detection and Classification (MFODL-RODC) method on surveillance videos. The main aim of the MFODL-RODC technique lies in the accurate classification and recognition of objects in surveillance videos. To accomplish this, the MFODL-RODC method follows a two-step process, consisting of object detection and object classification. The MFODL-RODC method uses the EfficientDet object detector for the object detection process. Besides, the classification of detected objects takes place using the Variational Autoencoder (VAE) model. The MFO algorithm is employed to enrich the performance of the VAE model. The simulation examination of the MFODL-RODC technique is performed on benchmark datasets. The extensive results accentuated the improved performance of the MFODL-RODC method over other existing algorithms with an output of 98.89%.
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基于深度学习的监控视频稳健目标检测与分类的蜉蝣优化
监控录像是由录像设备捕获的录像,用于监控和保护一个地区或财产。这些视频经常用于应用程序,包括执法、安全系统、零售分析和交通监控。监控录像可以提供有价值的视觉信息,用于分析模式,识别感兴趣的个人或物体,以及检测和调查事件。视频监控中的目标检测和分类涉及使用计算机视觉技术对视频片段中的目标进行识别和分类。目标检测算法用于定位和识别每帧内的目标。这些算法使用各种技术,即边界盒回归,卷积神经网络(cnn)和特征提取来检测感兴趣的对象。提出了基于深度学习的Mayfly优化监控视频鲁棒目标检测与分类(MFODL-RODC)方法。MFODL-RODC技术的主要目标是对监控视频中的目标进行准确的分类和识别。为此,MFODL-RODC方法遵循两个步骤,包括目标检测和目标分类。MFODL-RODC方法使用EfficientDet对象检测器进行对象检测过程。此外,使用变分自编码器(VAE)模型对检测到的对象进行分类。为了丰富VAE模型的性能,采用了最优解算法。在基准数据集上对MFODL-RODC技术进行了仿真验证。广泛的结果表明,MFODL-RODC方法比其他现有算法的性能有所提高,输出率为98.89%。
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来源期刊
Engineering, Technology & Applied Science Research
Engineering, Technology & Applied Science Research ENGINEERING, MULTIDISCIPLINARY-
CiteScore
3.00
自引率
46.70%
发文量
222
审稿时长
11 weeks
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