现有的基于主机的防护技术对这些感染蠕虫的不可控节点无能为力,而隔离技术只能缩小这些节点的危害范围,无法彻底清除节点中的蠕虫。
The existing host-based prevention technology can do nothing to prevent these infected nodes, and the quarantine mechanism can only limit the propagation range and can't eliminate all of the worms.
网格节点从大型主机扩展到小型智能设备,并要求支持语义和基于知识的互操作。
Grid nodes are experiencing an extension from supercomputers to smart mobile devices, and requiring semantic support and knowledge-based cooperation.
并结合基于主机入侵检测系统和基于网络入侵检测系统的各自特点,形成了节点入侵检测系统。
To form node intrusion detection system by combining the character of host intrusion detection system and net intrusion detection system.
恶意代码的检测技术主要分为基于主机的和基于网络节点的检测,本文主要研究针对基于主机的高隐藏性木马的检测技术。
Malware detection techniques can be divided into host-based and network-based, this paper mainly focuses on studies of host-based deep hidden Trojan detection techniques.
该方案基于USB主/从控制芯片CH375A,在单片机的控制下,实现了CAN总线数据采集系统中嵌入USB主机,从而完成把各节点采集的数据存入U盘,取代了现场数据采集系统必须有一台计算机的模式。
The proposal based on USB Host/Slave controller chip CH375A, realized a USB-Host embedded in CAN bus data acquisition system and stored acquisition data of each node in U flash disk under MCU control.
该方案基于USB主/从控制芯片CH375A,在单片机的控制下,实现了CAN总线数据采集系统中嵌入USB主机,从而完成把各节点采集的数据存入U盘,取代了现场数据采集系统必须有一台计算机的模式。
The proposal based on USB Host/Slave controller chip CH375A, realized a USB-Host embedded in CAN bus data acquisition system and stored acquisition data of each node in U flash disk under MCU control.
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