Construction and Application of Network Security Protection System in Smart Hospital
Based on Actual Combat Security Operation
LIU Yang
Department of Information Management, Haikou Affiliated Hospital of Central South University Xiangya School of Medicine
(Haikou People’s Hospital), Haikou Hainan 570208, China
Abstract:Objective According to the current situation and problems of hospital network security, to construct a visible, controllable
and closed-loop operation framework of hospital network security system, to provide comprehensive information security technical
support, management support, process support for the smart hospital. Methods The integrated safety operation center of smart
hospital based on actual combat was established. Through network security pre-situation awareness platform, professional security
operation team, institutionalized security management methods and standardized operation process, a network security protection
system was built. The integrated protection of network security in smart hospital was realized through the combination of technology
and management mechanism. Results Though the detecting security incidents of security operation center, the analysis results of
five dimensions, namely, SQL injection attack, discovery of plaintext password transmission, Web weak password login, discovery
of default system shared connection behavior, and discovery of Web empty interface login behavior, the security event discovery
capability had increased by 178.47%. It created a more reliable network security environment for medical services. Conclusion It is
necessary to establish and improve the network security capability of the hospital, which is widely connected, fully perceived, threat
visible and intelligent, and promote the sustainable development of the hospital.
刘阳. 基于实战化安全运营的智慧医院网络
安全保护体系构建与应用[J]. 中国医疗设备, 2023, 38(11): 127-132.
LIU Yang. Construction and Application of Network Security Protection System in Smart Hospital
Based on Actual Combat Security Operation. China Medical Devices, 2023, 38(11): 127-132.