高比特数字用户环路(HDSL)技术是一种新的在双绞铜线上实现高速数据传输技术,有“铜光纤”之称。
HDSL is a new high-speed data transport technology realized over twisted-pair wires and is known as "copper optical fiber."
在此前提下,采用高速数据传输技术成为必然,DMA(直接存储器访问)技术就是较理想的解决方案之一,能够满足信息处理实时性和准确性的要求。
DMA (Direct Memory Access) technology is one of the best solutions which could meet the requirements of real-time and accuracy for information processing.
这种基于光学基础的高速数据传输的通讯技术是最近几年重要的进步。
The push for higher data rates in light-based telecommunications technologies has seen a number of significant leaps in recent years.
这种无接触技术(如纤维光缆技术或新型高速无线数据传输技术)的出现,淋漓尽致的展现了核心网络的优越性。
The core network remains untouched as new access technologies (such as fibre-optic links or new kinds of high-speed wireless data technology) are added to its edges.
随着数据传输速率增高,其帧同步的实现就越来越困难,而该领域主要是应用高速数字电路技术。
It becomes more difficult to realize frame synchronization with higher data transfer speed, and this field applies mostly high-speed digital circuits technique.
本文研究了星-地高速数据传输的新型群聚OFDM概念,研究新型系统中的同步、群聚关键技术。
This paper is focused on the new concept of cluster OFDM for high-speed data transmission in the Satellite-Earth communication, researches on the key technology of synchronization and cluster.
目前,正交频分复用(OFDM)技术因能在无线时变信道中进行高速数据传输而受到广泛的关注。
At present, more comprehensive attention has been taken to OFDM technology in data transmitting systems with wireless time-varying channel.
正交频分复用(OFDM)技术是近几年兴起的一种在无线信道上实现高速数据传输的新技术。
Orthogonal Frequency Division Multiplexing (OFDM)technology in recent years is the rise of a wireless channel to achieve high-speed data transfer of new technologies.
将VMIMO和OFDMA技术的优势相结合,非常适合下一代无线通信系统对高速数据传输速率的要求。
The combination of the advantages of VMIMO and OFDMA technique is suitable for the high data rate transmission for the next wireless communication systems.
在对光纤通道技术做简要介绍的基础上,提出基于光纤通道的高速数据传输系统的设计方案。
Based on the simple introduction of fiber channel technology, the design project of high speed data transmitting on fiber channel technology is presented.
而且OFDM技术具有抗多径衰落,频谱利用率高等优点,特别适合于无线环境下的高速数据传输。
OFDM technology has many advantages, such as defending the multipath fading and high bandwidth efficiency, which are suitable for the high-rate data transmission in wireless enviroment.
基于GM 8123芯片建立的数据检测系统,提出了运用串口扩展技术提高数据传输速率,进而实现系统对数据的高速采集和处理。
A design method of data test system based on GM8123 is provided, which applies serial port expansion technologies to realize data transfer, acquisition and processing with high speed.
采用同步光传输技术,设计和实现了用于高速数据可靠传输的多通道数据传输卡。
A multi channel data transmission card has been designed and implemented using synchronous optical transmission technique.
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.
因而,研究适合于高速数据传输的跳频通信特点且具有高效频谱利用率的调制技术具有重要的实际意义。
Therefore, it has a practical significance to develop some fit methods of modulation with high spectrum efficiency for shortwave FH communication system.
本论文研究并设计了一套面向工业CT的基于USB2.0总线技术的高速数据传输系统。
This thesis research and design a set of industry CT oriented USB2.0 high speed data transmission system.
为实现高速无线数据传输,MIMO技术作为一种有效的手段得到了广泛的研究,并被新一代无线通信系统所采用。
As an effective way to achieve high data rates, MIMO technique has been widely studied and employed in new-generation of wireless communications systems.
本课题针对上述问题,研究基于FPGA的高速图像数据传输与处理技术,该技术越来越受到人们的普遍关注。
For the problems above-mentioned, this paper study high speed image data transmission and processing technology based FPGA, which has been concerned generally more and more.
借助于单片双口RAM,设计了一种新颖的数据传输结构,并利用乒乓技术实现对实时高速图像数据的缓冲。
With a dual-port RAM, a novel data transmission structure was designed, and ping-pong technique was used to implement the buffering of the high-speed real-time image data.
基于现场总线的高速、强实时数据传输技术是高档数控系统的标志性技术,也是高档数控硬件系统的重要组成部分。
Fieldbus-based high-speed, hard real-time data transmission technology is a symbol of high-end CNC technology. it is also an important component of CNC high-end hardware system.
采用复合编码扩频技术、隐分集技术以及多媒体数据压缩技术,实现了空地大容量高速、抗干扰多媒体数据传输。
Hybrid spread spectrum, rake and multiple data compressing technology are used to realize air to ground mass high-speed, anti-jamming multiple data transmission.
采用复合编码扩频技术、隐分集技术以及多媒体数据压缩技术,实现了空地大容量高速、抗干扰多媒体数据传输。
Hybrid spread spectrum, rake and multiple data compressing technology are used to realize air to ground mass high-speed, anti-jamming multiple data transmission.
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