网络控制的概念被扩展到了让数字交换机与数据库(称为服务控制点)和信号处理系统(智能外设)通信。
The concept of network control was extended to let digital switches communicate with databases (known as Service Control Points) and signal processing systems (Intelligent Peripherals).
首先介绍了线性相位FIR滤波器的四种情况,然后在此基础上设计了一种应用多重交换算法来处理心电信号的陷波滤波器。
Four types of linear phase fir filters are introduced at first, then of this basis a notch filter for processing ECG signal is designed by using multiple exchange algorithm.
首先,该算法利用信号收发及处理所产生的时延,实现从用户间快速交换控制信息的目的。
Firstly, this algorithm utilizes the delay caused by signal transmitting and signal processing to achieve fast control information exchange.
新型通用嵌入式信号处理系统是基于分组交换网络实现的。
The new type of embedded signal processing system, which is based on the packet switched network, is achieved.
为了完成数据的处理和交换,分别设计了时钟产生电路、100%调制信号和10%调制信号的解调电路。
In order to accomplish the data process and conversion, the clock generation circuit, 100% modulation signal and 10% signal demodulation circuit are designed.
为了实现真正意义上的全光分组交换,全光信号处理技术的研究迫在眉睫。
For realizing the all-optical packet switch in deed, the research of all-optical signal processing is quite urgent.
系统由服务器、网络交换机、报检机、工位机、LED过程指示器、信号采集单元、检测控制单元及信号处理单元等组成。
The system is composed of server, network switching, appling section , test section LED indicator , signal acquisition section , testing and controlling section and signal processing section etc.
因此,变革传统的“光-电-光”信息交换方式,在网络节点上实施全光交换和全光信号处理是本世纪以来的全球研究热点,也是当务之急。
Therefore it is a world-wide hot topic and urgent affair to implement all-optical switching and all-optical signal processing in optical network nodes since the beginning of this century.
在全光分组交换网络的节点处,对传输的光分组信号的各种全光处理必不可少。
The achievements of optical transportation raised new demand of the process capacity of the switching node.
在全光分组交换网络的节点处,对传输的光分组信号的各种全光处理必不可少。
The achievements of optical transportation raised new demand of the process capacity of the switching node.
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