针对基于SSL的安全通信模型中ssl握手协议部分在访问控制方面的缺陷,本文提出了一个基于pmi的全解决方案,并对改进设计进行了分析和BAN逻辑证明。
As for the flaws of the SSL handshake protocol part in the SSL based security communication model, the thesis proposes a PMI based solution and analyzes the design by using the BAN logic.
按照微型化、模块化的设计原则,适配器分为命令的传输解析模块、逻辑控制模块和存储模块;与上位机通信采用以太网接口。
According to the design principles of miniaturization and modularization, adaptor includes command transmission and analysis module, logical control module and memory module.
此外,对测量模块的总线通信工作原理及控制逻辑实现也作了具体讨论。
In addition, this paper discusses the principle of bus communication and logic control in detail.
然后,设计模糊逻辑控制器,利用编队运行中的导航信息、通信信息以及任务优先级信息,对控制器增益进行模糊调节。
Then a fuzzy logic controller was designed as a regulator to modify the optimal control gains based on the run-time information, including navigation, communication, mission priority, and so on.
文章主要是采用西门子公司的可编程逻辑控制器PLC- 200来实现交通信号灯的控制。
In the paper, traffic signal light is controlled by PLC-200 by using programming logic controller of Siemens company.
基于模糊逻辑控制的数字锁相环,用于通信系统中的载波恢复。
Digital phase lock loop base on fuzzy logical control, which is used to recover carrier in communication system.
在硬件上采用CPLD来完成系统的逻辑控制,利用UART(通用异步收发器)来进行串行通信,使DSP从繁忙的控制任务中解放出来。
In the hardware field, CPLD is entitled for system logical control; Serial communication derived from UART (Universal Asynchronous Receiver Transmitter) frees the DSP of burdensome control.
介绍了新型通信控制器的硬件设计,着重描述了通信接口部分,用复杂可编程逻辑器件CPLD解决了CAN 控制器芯片SJA 1000与AT 91RM 9200之间的时序逻辑问题。
The hardware structure is introduced, emphatically the communication interface circuit. The time sequence logic problem between CAN controller chip SJA1000 and AT91RM9200 is solved using the CPLD.
本文研究设计了基于多功能车辆总线的机车逻辑控制单元,讨论了列车通信网络实时协议的实现。
This dissertation researched and designed the locomotive LCU based on MVB, discussed the realization of real-time protocol of TCN.
终端信息消息不仅包括来自接收端的通信方式优先级、逻辑信道信令、控制与指示,而且也包括接收和传输能力。
The messages cover receiving and transmitting capabilities as well as mode preference from the receiving end, logical channel signalling, and Control and Indication.
我们提供的智能型控制器线传感器,扩展其功能,包括供应在线监测,诊断和网络通信可编程逻辑与。
We offer a line of intelligent proximity sensors that extend their functionality to include supply line monitoring, diagnostics and network communication with a programmable logic controller.
主要介绍电气设备中可编程逻辑控制器(plc)、变频器、触摸屏、RS- 485模块及个人电脑之间实现异步通信的软切换。
The soft switching of asynchronous communication among PLC (Programmable Logic Con-troller), transducer, touch screen, RS-485 module and PC is introduced.
本通信协议分为物理层、介质访问控制层和逻辑链路控制层三层设计。
The communication protocol is designed in term of three layers: Physical layer, Media Access Control layer and Logic Link Control layer.
本通信协议分为物理层、介质访问控制层和逻辑链路控制层三层设计。
The communication protocol is designed in term of three layers: Physical layer, Media Access Control layer and Logic Link Control layer.
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