并应用这一技术设计实现了上行线复用传输样机系统。
The uplink multiplexing sample transmission system is realized by use of this technology.
同时也对长距离、大容量波分复用传输新技术作了简要的介绍。
And, it introduces the some of new transmission technologies in the long haul and high capacities WDM systems.
本文提出了沃尔什函数作多路复用传输时的另一种调制制式——宽度调制。
In this paper we suggested the width modulation-another modulation method of Walsh function in the multiplex system.
针对需要交换多种类型信息的要求,设计了传输协议,实现在通讯信道中的多种信息分时复用传输。
A transmission protocol is designed against the requirement of exchanging more types information, the time division multiplex transmission in communication channel is realized too.
随着波分复用(WDM)技术的迅速商用化,骨干网络传输带宽呈现爆炸式增长的趋势,这使得网络生存性变得越来越重要。
With the rapid commercial applications of the WDM technology and the explosive growth of the transmission bandwidth of backbone networks, network survivability has become increasingly more important.
它能提供方便有效的数据复用和解复用功能,并能可靠地传输数据。
It provides high availability and very reliable transport with powerful multiplexing and demultiplexing capabilities.
波分复用(WDM)技术是增大光纤传输容量的方法,但是在高速率、长距离wdm系统中传输性能受到限制。
WDM technology is a method for increasing the transmission capacity of optical fiber, but the transmission performance in WDM system with high speed and long distance is limited.
硬件设计部分主要完成了数据的接收、传输流的解析和解复用功能。
The hardware design mainly completes the data receiving and TS demultiplexing and filtering.
因为它是一种异步的机制,ATM与同步传输模式理论(比如时分复用技术,它为每个用户预定义了时间片)并不相同。
Because it is an asynchronous mechanism, ATM differs from synchronous transfer mode methods, where time-division multiplexing techniques are employed to preassign users to time slots.
最后依照各传输信道的编码复用方案,设计各个信道的开发流程。
At last, according to the channel coding and multiplexing of every transport channel, the flow scheme is designed.
文件数据封装、复用、传输、寻址及接收技术是实现本方案的核心技术。
Data encapsulation, multiplexing, transmission, and addressing are the key technologies of this scheme.
逻辑信道到传输信道的映射关系取决于RRC层配置的复用关系。
The mapping of logical channels on transport channels depends on the multiplexing that is configured by RRC.
光时分复用(OTDM)技术是实现超大容量传输的最有希望的途径之一。
Optical time division multiplexing (OTDM) technology is one of the most promising way to achieve ultrahigh bit rate transmission.
已有研究表明,MIMO系统可以同时提供分集增益和复用增益,以提高传输的可靠性和有效性。
Existing research shows that MIMO systems can provide diversity gain and multiplexing gain at the same time to improve the transmission reliability and efficiency.
而随着多业务传输平台、波分复用和自动交换光网络等技术的引入,上述这些问题能够得到较为满意的解决。
For solving the abovementioned problems, such technologies as Multi Service Transport Platform, Wavelength Division Multiplexing, and Automatically Switched Optical Network can be introduced.
本文利用粗波分复用器(CWDM)的传输特性与波长的关系,提出了一种FBG传感解凋方法并建立了实验系统。
According to the CWDM wavelength dependent transmission characteristics, an FBG sensing DE - modulation method was proposed and an experiment system was established.
密集波分复用(DWDM)技术能充分利用光纤巨大的传输容量,基本满足了对带宽的需求。
DWDM (dense wavelength division multiplexing) technology has exploited the huge potential bandwidth of optical fibers to meet the bandwidth requirement.
介绍了一种用于模拟A TM网中的分组复用语音流传输的模型:流体流动模型。
In this paper, a model for packet voice multiplexing system of ATM was introduced, which is called a fluid flow model.
利用传输矩阵法,研究了一种用于波分复用的光子晶体滤波器。
A kind of photonic band gap filter for wavelength division multiplexed is discussed with transfer matrix method.
提出了一种MPEG - 2单节目传输流多路复用的软件实现方案。
This paper presents a scheme of MPEG-2 transport stream (ts) multiplexing based on software.
波分复用是在一根光纤上同时传输多个不同光波长的技术。
Wave division multiplex (WDM) is the technique of transmitting more different wavelength of light in one fiber at the same time.
提出了一种基于分割传输序列(PTS)改善正交频分复用信号峰值平均功率比(PAPR)的优化算法。
An optimal algorithm based on partial transmit sequences (PTS) for reducing the peak to average power ratio (PAPR) of orthogonal frequency division multiplexing signal is presented.
部分传输序列(PTS)是一种复杂度较高的减小正交频分复用(OFDM)系统峰均功率比(PAPR)的方法。
Partial transmit sequences (PTS) is a method with high complexity to reduce the Peak-to-average power ratio (PAPR) of orthogonal frequency division multiplexing (OFDM) system.
本文探讨了基于正交频分复用(OFDM)的电力线宽带数据传输方案。
In this paper, a scheme of Broadband Power Line Communication based on orthogonal frequency division multiplexing (OFDM) is discussed.
简要介绍密集波分复用系统在光纤光缆传输网中的应用及其发展趋势。密集波分复用系统的类型、系统容量、传输方式及传输系统设计。
It briefly introduces the application of DWDM to optical fiber cable transmission network, DWDM's developing trends, its types, system capacity, transmission methods and transmission system design.
该文通过所设计的AT M网络VBR视频传输实验,获得了不同复用缓冲区大小及复用输出速率下的信元丢失率。
In this paper, the cell loss ratios in ATM network are got by varied the multiplex buffer size and multiplex rate using the designed VBR video transmission experiment.
正交频分复用(OFDM)是一种新型调制技术,特别适合在多径传播的无线移动信道中高速传输数据。
OFDM (Orthogonal Frequency Division Multiplexing) is a new modulation technology, it is suitable to high-data-rate transmission in the wireless transfer channel with multi-path transmission.
作为一种高效的数据传输技术,正交频分复用(OFDM)技术具有良好的抗衰落能力,实现数据的高速传输。
As an efficient data transmission technique, OFDM can resist multi-path fading and realize high data rate transmission.
数字视频广播系统中传输流的处理由复用器完成。
Transport stream is generated by multiplexer in digital video broadcasting systems.
数字视频广播系统中传输流的处理由复用器完成。
Transport stream is generated by multiplexer in digital video broadcasting systems.
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