中文摘要：

复杂电子物理的网络指其显著地工作的正常依靠在之间的紧密的相互作用的复杂网络的新一代它的物理并且电子部件。当，许多现代批评基础结构能适当地被建模复杂电子物理的网络。如此的基础结构的典型例子是电力格子，万维网，公共交通系统，说金融网络，和因特网。这些批评设备在保证社会的稳定性以及经济的发展起重要作用。在信息和通讯技术的进展打开机会让恶意的攻击者从任何因特网可存取的地方在联网的基础结构在电子物理的批评设备上发射协调攻击。复杂电子物理的网络的 Cybersecurity 在这上下文以内作为一个热话题出现了。在实践，在这些上理解在内在的网络结构和集体动力学的进化之间的相互影响也是很关键的复杂网络并且因而控制策略设计有效安全保护这些网络的进化。在这份报纸，复杂电子物理的网络的 cybersecurity 首先被构画出然后提高技术的某安全与安全通讯上的特别强调，攻击察觉和差错容忍的控制，被建议。而且，有效安全控制策略的一个新类为保证合乎需要的卡住的成就被建议在对对节点的恶意的攻击的复杂电子物理的网络的同步行为。作者希望这份报纸激发为复杂电子物理的网络系统设计提高的安全策略，到认识到有弹性、安全的批评基础结构。

英文摘要：

Complex cyber-physical network refers to a new generatio~ of complex networks whose normal functioning significantly relies on tight interactions between its physical and cyber compo- nents. Many modern critical infrastructures can be appropriately modelled as complex cyber-physical networks. Typical examples of such infrastructures are electrical power grids, WWW, public trans- portation systems, state financial networks, and the Interact. These critical facilities play important roles in ensuring the stability of society as well as the development of economy. Advances in informa- tion and communication technology open opportunities for malicious attackers to launch coordinated attacks on cyber-physical critical facilities in networked infrastructures from any Interact-accessible place. Cybersecurity of complex cyber-physical networks has emerged as a hot topic within this con- text. In practice, it is also very crucial to understand the interplay between the evolution of underlying network structures and the collective dynamics on these complex networks and consequently to design efficient security control strategies to protect the evolution of these networks. In this paper, cybersecu- rity of complex cyber-physical networks is first outlined and then some security enhancing techniques, with particular emphasis on safety communications, attack detection and fault-tolerant control, are suggested. Furthermore, a new class of efficient secure the achievement of desirable pinning synchronization control strategies are proposed for guaranteeing behaviors in complex cyber-physical networks against malicious attacks on nodes. The authors hope that this paper motivates to design enhanced security strategies for complex cyber-physical network systems, to realize resilient and secure critical infrastructures.