摘要
由于数据安全已成为影响国家安全、企业运营与个人隐私保护的核心要素,所以构建具备物理隔离优势与算法动态演化能力的硬件加密装置为一种可行且必要的解决方案。文章基于此思想建立了具备动态密钥生成、自主攻击识别与自我修复能力的智能化加密机制,并阐述分析了该机制的整体架构、关键算法逻辑以及其在通信安全、物联网终端、边缘计算等场景下的应用前景,该机制有着高稳定性与高加密效率。
As data security has become a critical factor impacting national security,corporate operations,and personal privacy protection,developing hardware encryption devices with physical isolation advantages and dynamic algorithmic evolution capabilities emerges as both feasible and essential.Building on this concept,the paper establishes an intelligent encryption mechanism featuring dynamic key generation,autonomous attack detection,and self-repair capabilities.It systematically analyzes the system’s architecture,core algorithm logic,and application prospects in communication security,IoT terminals,and edge computing scenarios.This mechanism demonstrates exceptional stability and high encryption efficiency.
作者
熊淼
XIONG Miao(Jiangxi Vocational College of Mechanical&Electrical Technology,Nanchang Jiangxi 330013,China)
出处
《信息与电脑》
2025年第15期19-21,共3页
Information & Computer
关键词
计算机技术
人工智能
硬件加密
computer technology
artificial intelligence
hardware encryption
