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Video Data Security Sharing Transmission Mechanism and Best Practices in Cross-Domain Scenario
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Author(s): Xudong Shao (Department of Information Security Technology, The Third Research Institute of the Ministry of Public Security, Shanghai, China), Bo Yang (Computer Network Information Center, Chinese Academy of Sciences, Shanghai, China & University of Chinese Academy of Sciences, Beijing, China), Zhijie Fan (Department of R&D Center, Shanghai Chenrui Information Technology Company, Beijing, China & Department of Information Security Technology, The Third Research Institute of the Ministry of Public Security, Shanghai, China), Deyang Qu (Operation and Maintenance Department, Institute of Information Technology of National Immigration Administration, Beijing, China), Weichao Hu (Division of Research Management, Research Institute for Road Safety of the Ministry of Public Security, Beijing, China)and Shijun Xu (Department of Science and Technology, Traffic Police Detachment of Nantong Public Security Bureau, Nantong, China)
Copyright: 2026
Volume: 20
Issue: 1
Pages: 29
Source title:
International Journal of Information Security and Privacy (IJISP)
Editor(s)-in-Chief: Yassine Maleh (Sultan Moulay Slimane University, Morocco)and Ahmed A. Abd El-Latif (Menoufia University, Egypt)
DOI: 10.4018/IJISP.405407
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Abstract
High real-time mobile video stream cross-domain secure transmission and sharing has become a research focus in the field of high-performance and secure communication. In this study, a more efficient method based on combining a zero-copy model with a one-way light transmission mechanisms is proposed. The method contains an effective integrated framework and layered design structure. The latest PF_RING (9.0.0) zero-copy model, memory routing table, multi-queue multi-threading, and related technologies are comprehensively combined to ensure the high-performance cross-domain secure transmission and sharing of video streams. At the same time, to ensure the safe transmission of shared mobile video data between different network domains, both a mobile video surveillance data transmission model and an anti-storage-based covert channel model are proposed. The experimental results show that the performance of the proposed method has increased by at least 10% in throughput, central processing unit utilization, and bit error rate.
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