Based on the simple introduction of fiber channel technology, the design project of high speed data transmitting on fiber channel technology is presented.
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。
The paper presents a two-channel high speed data acquisition system based on TS101 with PCI bus interface.
给出了基于TS101和PCI的双通道数据采集处理系统的设计方案。
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.
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。
Time variant multipath propagation in acoustic channel causes serious intersymbol interference (ISI), which makes high speed data transmission over acoustic channel very difficult.
但水声信道的时变多途效应造成接收数据严重的码间干扰(I S I),使得高速水声通讯的实现十分困难。
OFDM is a high transmission technology in the wireless propagation environment. It is fitted to transmit high-speed data in the wireless channel which has multi-path delay and Doppler frequency shift.
OFDM是一种无线传播环境下的高速传输技术,适合在多径传播和多普勒频移的无线信道中传输高速数据。
Based on the site observation data of Hengmen Channel, it advances an analysis to the wave action induced by a high-speed catamaran to dike and the maximum wave pressure coefficient.
根据横门水道现场观测资料,分析了双体快速船船行波对堤岸的作用和最大波压强系数分布。
Based on the prototype observation data of the high - speed double volume ship in Pearl River channel the ship wave characteristics are analysed in this paper.
应用珠江三角洲部分航道中高速双体客船船行波现场观测资料,分析船行波波态和特性。
Based on the site observation data of Hengmen Channel, it advances an analysis to the wave action induced by a high - speed catamaran to dike and the maximum wave pressure coefficient.
根据横门水道现场观测资料,分析了双体快速船船行波对堤岸的作用和最大波压强系数分布。
The system circuit is simple which is universal to with high-speed, multi-channel, wide dynamic range data acquisition systems, and can be extended according to the system.
该系统电路结构简单,对多路高速、宽动态范围的数据采集系统具有一定的通用性,可根据系统的需要进行扩展。
To support HSUPA, a new transport channel, namely Enhanced Dedicated Channel (E-DCH), is added to the uplink of TD-SCDMA system, which is a transmission channel for carrying high-speed uplink data.
为了支持HSUPA特性,TD-SCDMA系统上行新增加了增强型上行链路专用信道(E-DCH),用于承载高速上行数据。
The system utilizes CPLD to realize logical and timing control between DSP and multi-channel ADC. The interface between DSP's HPI and PCI bus is employed to achieve high-speed data transmission.
该系统采用CPLD实现了DSP与多通道adc的逻辑和时序控制,通过DSP的HPI与PCI总线接口设计实现了采集数据的高速传输。
High speed channel switching and data acquisition are achieved by CRIO technique, meanwhile multichannel array data is analyzed and processed.
通过采用CRIO技术实现了多个通道的高速切换和数据采集,对多通道的阵列数据进行了分析处理。
Very high data bandwidth and valid transmission distance and right trigger mode were demanded in real-time and high-speed digital camera data transmission channel.
在实时处理高速数字摄像机的数字视频信号时,通常要求数据传输通道具有很高的带宽和有效的传输距离以及正确的外部触发控制。
This thesis presents a system architecture of six channel high speed data acquisition on PCI bus and implement it.
提出并实现了一种基于PCI总线六通道高速采集系统的结构。
However, for such high-speed data transmissions, the channel is severely frequency-selective due to the presence of many interfering paths with different time delays.
但是,对于这样高速率的传输,信道会由于具有不同延迟时间的多条干扰路径的存在而呈现出严重的频率选择性。
To achieve high-speed data transmission, my study designs high-speed data transmission channel;
为实现高速数据传输,本文设计了高速数据传输通道;
You can divide the connection into different lines for data and voice communication or use the channel for one high speed data circuit.
用户可以将此连接分为用于数据和语音通讯的不同线路,或将此通道用于高速数据线路。
CRC checkout is used to carry out checkout of data during wireless transportation, which makes high-speed data acquisition, data upload realize and allows multi-channel to be sampled simultaneously.
系统实现了高速的数据采集和数据上传,以及多通道的同步采集。
For example, in the UMTS standard, an enhanced dedicated channel (E-DCH) for high speed data, the highest burst rate corresponds to 4 or 2 chips.
例如,在UMTS标准中,用于高速数据的增强专用信道(E - DCH),最高脉冲速率对应于4或2个码片。
Parallel processing of high-speed astronomical image data, existing image segmentation methods often can not meet the needs of real-time, multi-channel, synchronous segmentation.
在高速天文图像数据的并行处理时,传统的图像分割方法往往不能满足实时、多通道、同步分割的要求。
Parallel processing of high-speed astronomical image data, existing image segmentation methods often can not meet the needs of real-time, multi-channel, synchronous segmentation.
在高速天文图像数据的并行处理时,传统的图像分割方法往往不能满足实时、多通道、同步分割的要求。
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