摘要
为增强云计算环境下的通信网络安全传输能力,围绕当前云环境中存在的身份认证薄弱、数据泄露风险高、异常行为难识别等安全问题,系统分析多租户共享、虚拟化滥用及配置漏洞带来的潜在威胁,并提出一套涵盖通信控制、远程控制、远程监视以及管理设置的多层次安全传输控制技术框架。通过引入基于属性的身份认证机制、区块链规则校验、机器学习异常检测以及细粒度权限管理等关键技术手段,构建具备动态响应能力的安全防护体系。实验结果表明,该体系在不同攻击强度下均表现出较高的身份认证成功率、异常识别准确率及流量拦截效率,有效提升云通信环境的整体安全性。
In order to enhance the secure transmission capability of communication networks in cloud computing environments,this paper focuses on current security issues in cloud environments,such as weak identity authentication,high risk of data leakage,and difficulty in identifying abnormal behaviors.It systematically analyzes the potential threats caused by multi-tenancy sharing,virtualization abuse,and configuration vulnerabilities.A multi-layered secure transmission control framework is proposed,encompassing communication control,remote control,remote monitoring,and management configurations.By introducing key technologies including attribute-based identity authentication,blockchain rule verification,machine learning-based anomaly detection,and fine-grained permission management,a security protection system with dynamic response capabilities is constructed.Experimental results show that the proposed system achieves high identity authentication success rates,accurate anomaly detection,and efficient traffic interception under various attack intensities,effectively enhancing the overall security of cloud communication environments.
作者
游涛源
YOU Taoyuan(ZTE System Technology Co.,Ltd.,Shenzhen 518000,China)
出处
《通信电源技术》
2025年第15期200-202,共3页
Telecom Power Technology
关键词
云计算
通信安全
传输控制
身份认证
cloud computing
communication security
transmission control
identity authentication
