相關主題
商品描述
This book reveals the essence of endogenous or internal contradictions in cyberspace security issues, systematically expounds the principle of cyberspace endogenous security and safety, introduces the author-invented dynamic heterogeneous redundant (DHR) architecture with endogenous security and safety features, and theoretically answers why DHR endogenous security and safety architecture can enable network resilience engineering; the enabling role of DHR architecture solves the problem that network resilience cannot cope with unknown damage, lacks structural gain, and cannot quantify design measures. This book analyses the systematic security gains that DHR architecture enabling network resilience engineering can bring in the four purpose dimensions of prevention, defense, recovery and adaptation; gives an application example of DHR endogenous security and safety architecture enabling network resilience engineering; introduces the research and exploration of endogenous security and safety theory in wireless communication security, artificial intelligence security and other derivative application fields; and uses rich application examples. It shows that the endogenous security and safety architecture enabling network resilience engineering not only is very necessary but also has universal application significance. This book is suitable for postgraduate teaching materials or reference books of related disciplines, such as cybersecurity, network resilience engineering, confidential computing/trusted computing, information physical systems/industrial control, etc.
商品描述(中文翻譯)
本書揭示了網路空間安全問題中內生或內部矛盾的本質,系統性地闡述了網路空間內生安全與安全的原則,介紹了作者發明的具備內生安全與安全特性的動態異構冗餘(DHR)架構,並理論性地回答了為何DHR內生安全與安全架構能夠促進網路韌性工程;DHR架構的促進作用解決了網路韌性無法應對未知損害、缺乏結構性增益以及無法量化設計措施的問題。本書分析了DHR架構促進網路韌性工程在預防、防禦、恢復和適應四個目的維度上所帶來的系統性安全增益;提供了DHR內生安全與安全架構促進網路韌性工程的應用範例;介紹了在無線通信安全、人工智慧安全及其他衍生應用領域中內生安全與安全理論的研究與探索;並使用豐富的應用範例。這顯示出促進網路韌性工程的內生安全與安全架構不僅非常必要,還具有普遍的應用意義。本書適合用作研究生教學材料或相關學科的參考書籍,如網路安全、網路韌性工程、保密計算/可信計算、信息物理系統/工業控制等。
作者簡介
Wu Jiangxing, academician of the CAE Member, born in 1953, is a famous scientist and engineer in the fields of network and communication, computer architecture and cyber security in China. In 2008, he proposed a multi-dimensional reconfigurable hardware and software collaborative computing architecture based on active cognition - Mimic Computing Architecture (MCA), which was rated as "China's top ten scientific and technological progress" in 2013 by academicians of the Chinese Academy of Sciences and the Chinese Academy of Engineering. In 2013, the Cyberspace Mimic Defense (CMD) theory of endogenous security and safety based on structure coding was founded, which proved that the inference of "structure determines security" derived from the axiom of "structure determines function" was established in theoretical and engineering sense, and opened up a new direction of structure encryption besides information encryption for security and confidentiality. Since 2017, he has successively published the Chinese monographs "Introduction to Cyberspace Mimic Defense", "Principles of Cyberspace Mimic Defense", "Endogenous Security and Safety in Cyberspace" and the English monographs "Cyberspace Mimic Defense: Generalized Robust Control and Endogenous Security and Safety".
作者簡介(中文翻譯)
吳江興,中國工程院院士,生於1953年,是網路與通信、計算機架構及網路安全領域的著名科學家和工程師。2008年,他提出了一種基於主動認知的多維可重構硬體和軟體協同計算架構——模擬計算架構(Mimic Computing Architecture,MCA),該架構於2013年被中國科學院和中國工程院院士評選為「中國十大科技進步」。2013年,他創立了基於結構編碼的內生安全與安全的網路空間模擬防禦(Cyberspace Mimic Defense,CMD)理論,證明了「結構決定安全」的推論是基於「結構決定功能」的公理,在理論和工程意義上成立,並為安全和保密開辟了結構加密的新方向,除了信息加密之外。自2017年以來,他相繼出版了中文專著《網路空間模擬防禦導論》、《網路空間模擬防禦原理》、《網路空間的內生安全與安全》,以及英文專著《網路空間模擬防禦:廣義穩健控制與內生安全與安全》。