多路复用技术

最后，简要分析了相关的关键技术，如分布式光纤传感技术、光纤传感器的多路复用技术、光纤传感器的无损集成技术、RS-485总线通讯技术等。

Finally , the relevant key techniques are also briefly analyzed , including distributed optical fiber sensing , multiplexing of optical fiber sensors , unharmful integrating of optical fiber sensors and RS-485 bus communication .

当前，光纤水听器阵列的多路复用技术已成为研究的重要课题之一，而时分复用（TDM）技术被认为是最简单有效的方案。

At present , the research of multiplexing technology of fiber-optic hydrophone array has become more important . Time division multiplexing ( TDM ) is considered as the simple and effective design for practical application .

实验系统采用MicrosoftvisualC++6.0开发，提供编译码、流量控制、差错控制、多路复用技术和频带传输与调制解调技术等实验的动态演示。

This experimental system is developed by Microsoft Visual C + + 6.0 , provide the dynamic demonstration of coding and decoding , error control , multiplexing , frequency band transportation and MODEM technology etc.

在介绍多路复用技术在网络模型的应用过程中，引入了Tunnel和Channel的概念，给出了该网络模型的通信架构图，并分析了滑动窗口算法在该网络模型中进行流量控制的应用。

In this paper , through discussion of the whole design of this network model , the concepts of Tunnel and Channel are introduced , the process to communicate with each other is offered and the traffic control using sliding windows algorithm is ( analyzed . )

为提高系统的稳定性和并发处理多个终端的能力，前置服务器安装Linux操作系统并采用并发服务器软件模型，在处理I/O时采用了多路复用技术。

In order to improve the stability of the system and the ability to handle concurrency , the auto-ticketing server installs Linux operation system and uses concurrent server software model , multiplexing technology is also used when dealing with I / O.3 .

然后采用TDMA时分多路复用技术对全网进行统一的时隙划分，其中簇内时隙划分采用并行方式，簇间时隙划分采用串行方式。

Then it takes the whole network into a unified slot by adopting TDMA time-division multiplexing technology , in which slots in cluster are applied to a parallel mode and slots between clusters are applied to a serial mode .

因为多个光栅可以都写入到一根光纤上，并利用多路复用技术来编址，所以FBG传感器具备了分布式传感测量的能力，一个多通道分布式的传感网络可有数百个FBG传感器。

For a great deal of FBG might be written in a fiber and be encoded by multiplexing technique , FBG sensor has the capability of distributed sensing measure and a multichannel distributed fiber Bragg grating sensing system network may have hundreds of FBG sensors .

研究了数字电视的取样、量化、编码技术、多路复用技术、条件接收技术、机顶盒技术、MMDS微波传输技术的主要理论基础。

And the basic theories such as sampling , quantization , coding techniques , techniques of co-running in multi-channels , conditional access , STB , techniques of microwave transferring about MMDS is also discussed .

基于双干涉仪结构的光纤传感器多路复用技术

Multiplexing technology of optic fiber sensor based on double interferometer structure

多路复用技术在光纤水听器阵列中的应用

The Application of Multiplexing Technology in Optical Fiber Hydrophone Array

光纤水听器多路复用技术及其串扰与噪声分析

Analyses of Crosstalks and Noises in Multiplexing Arrays of Fiber Optic Hydrophones

正交频分多路复用技术，[港]正交多任务分频技术频分多路复用微波中继系统

OFDM ( orthogonal frequency division multiplexer ) microwave relay system using frequency division multiple

激光调频光纤位移传感器多路复用技术的研究

Multiplexing Technique of Optical Fiber Displacement Sensor Based on Heterodyne Interference with Frequency-Modulated Semiconductor Laser

本文对多路复用技术和多路复用数据流的监测系统及设计模型进行了研讨。

The article carries out research on multiplexing , test system and design model of multiplex data flow .

采用多路复用技术的分布式阵列则是光纤水听器应用研究的发展方向。

The distributed array system based on various multiplexing technology is the current trend of research on optic fiber hydrophone .

无线频率是稀有的资源，因此无线频率提供商使用多路复用技术通过一个频率发送多个呼叫。

Wireless frequencies are a scarce resource , so wireless providers use multiplexing to send multiple calls over a single frequency .

介绍了伪卫星应用中的远近效应问题和常用的解决方案，重点分析了采用时分多路复用技术来对伪卫星信号进行重新设计。

The present paper introduces the design scheme , method , and problems in using sound-card and time-division multiplexing implement data collection .

时分多路复用技术，时分多路转换，[港]分时多任务以小时为单位划分你的工作时间，用更少的人做更多的事情。

Time division multiplexing Try working part of your day in off-hour times , to get more done with fewer people around .

在许多实际的数据采集系统中，为利用现有的低速A／D实现超高速数据采集，通常采用前端并行逐行取样，后端串行多路复用技术。

In practice , the interleaving technique os usually be used in Order to realize the ultrahigh-speed waveform digitizer with existing low-speed A / D converters .

所谓多路复用技术是指在通信和输入与输出操作中，一种通过单一通道或线路同时传输多个不同信号的技术。

Multiplexing means that a technique used in communications and input / output operations for transmitting a number of separate signals simultaneously over a single channel or line .

对具有能、信合一特点的总线技术，一些基本的通信技术和具有多种调制方式的正交频分多路复用技术进行了简单的介绍。

And the bus technology of the characteristics of power supply and signal complexing , some basic communication technology and orthogonal frequency division multiplexing technology with a variety of modulation methods has been briefly described .

为了应对可伸缩性挑战，您可以利用一种称为HTTP多路复用的技术。

To rise to the scalability challenge , you can employ a technique called HTTP multiplexing .

3GPPLTE的预编码和空间多路复用MIMO技术

Precoding and Spatially Multiplexed MIMO in 3GPP LTE

多路复用控制技术在工业系统中的应用

Application of multipath - repetition control technology to industrial system

可扩展的动态波分多路复用网络技术及发展前景分析

Technologies and Developments for Scalable Dynamic WDM Networks

波分多路复用（WDM）技术作为有效的复用方案之一，目前已经广泛应用于光纤传感阵列中。

As one of the most efficient schemes , wavelength division multiplexing ( WDM ) is applied widely in fiber-optic sensor arrays .

时分多路复用（TDM）技术作为最简单有效的复用方案，广泛应用于光纤传感器阵列设计中。

As one of the simplest and most efficient schemes , time-division multiplexing ( TDM ) is applied to the design of fiber-optic sensor arrays widely .

对于电力系统中的多通道高频、高速或冲击信号的采样测试，可以采用多路A/D交替顺序采样/多路复用技术来提高采样速率。

In order to improve the sampling rate for the multi channel high frequency , high speed or impulsive signal , the multi channel A / D converter interleaving / multiplexing technology can be adopted .

波分多路应用引伸至市内网可扩展的动态波分多路复用网络技术及发展前景分析

Applications of Wavelength Division Multiplexing Expanding from Toll Lines to Local Networks Technologies and Developments for Scalable Dynamic WDM Networks