This study addresses the challenges of insufficient real-time performance, signal instability, and resource mismatch in emergency
media transmission. To enhance transmission efficiency and security, we analyze the synergistic mechanisms between 5G and edge computing, examining three transmission approaches: localized processing at edge nodes, multi-link backup, and elastic resource scheduling. Three
optimization strategies are proposed: optimized node deployment, hierarchical data preprocessing, and secure link encryption. The results
demonstrate that these technical solutions effectively resolve core pain points in emergency media transmission, providing practical pathways
for stable and efficient information delivery during crises.

5G+edge computing; Emergency; Media; Informatization; Transmission

[1] Zhang Qianwang. Research on Intelligent Traffic Scheduling Strategies for Software-Defined Networks for 5G Edge Computing [J].

China Broadband, 2025, 21(7):19-21.

[2] Wang Hua. Research and Analysis on Network Slicing Security Isolation Technology Based on 5G Edge Computing [J]. Changjiang

Information & Communications, 2025, 38(2):185-187.

[3] Yang Wenfeng, Wang Minglong, Li Yang, et al. Preliminary Study on the Application Model of 5G Edge Computing in the Industrial

Internet of Thermal Power Industry [J]. Internet Weekly, 2024(13):22-24.

[4] Lin Yong, Lin Yadi, Lin Wendu. Research and Implementation of 5G Edge Computing and AI Technology Integration in Ancient Tree

Management Systems [J]. Computer & Telecommunications, 2023(4):58-63.

[5] Zhou Renjie, Wu Minghong, Yuan Geng. Research on the Design of 5G Edge Computing System Based on Optical Fiber Network Communication [J]. Computer Procurement, 2024(47):73-75.