Abstract
The Internet of Things (IoT) has penetrated into various application fields. If the multimedia information obtained by the IoT device is tampered with, the subsequent information processing will be affected, resulting in an incorrect service and even security threat. Therefore, it is very necessary to study multimedia forensics technology for IoT security. In the edge-cloud IoT environment, an image anomaly detection technology for security service is proposed in this paper. First, preprocessing is performed before image anomaly detection. Then, we extracted sparse features from the image to roughly localize the region of anomaly detection. Feature extraction based on the polar cosine transform (PCT) is then performed only on the candidate region of anomaly detection. To further improve the detection accuracy, we use iterative updating. This method makes use of the feature that the edge node is closer to the multimedia source in physical location and migrates the complex computing task of image anomaly detection from the cloud computing center to the edge node. Provide a security service for abnormal data and deploy it to the edge-cloud server to reduce the pressure on the cloud. Overall, preprocessing improves the ability of feature extraction in smooth or small region of anomaly detections, and the iterative strategy enhances the security service. Experimental results demonstrate that the proposed method outperforms state-of-the-art methods.
Highlights
In recent years, with the continuous integration of emerging technologies such as artificial intelligence, blockchain [1], big data [2], and the Internet of Things (IoT) [2,3,4,5,6,7] and the increasing number of intelligent devices [8], the image data to be processed by the IoT has increased exponentially
Aiming at the problems of high delay and low processing efficiency of edge cloud, an image anomaly detection method based on edge computing is proposed
In the edge-cloud IoT, a security service-oriented image anomaly detection technology is proposed in this paper
Summary
With the continuous integration of emerging technologies such as artificial intelligence, blockchain [1], big data [2], and the Internet of Things (IoT) [2,3,4,5,6,7] and the increasing number of intelligent devices [8], the image data to be processed by the IoT has increased exponentially. Dense-field algorithms have high computational complexity and may lead to false matching of similar smooth areas in natural images. Sparse-field algorithms cannot extract enough key points from smooth or small areas in images, limiting their performance. (1) In the edge-cloud IoT, an anomaly detection technology for security service is proposed to further construct the trust mechanism of network data. This method makes use of the feature that the edge node is closer to the multimedia source in physical location and migrates the complex computing task of image anomaly detection from the cloud computing center to the edge node.
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