超宽带技术有能力支持更高的数据传输速率。
超宽带探测雷达是基于超宽带技术的重用应用之一。
The UWB detection radar is one of significant applications in UWB technology.
超宽带技术是目前无线通信中非常有发展前途的技术。
Ultra Wide Band technology is a very attractive technology of wireless communication.
超宽带技术(uwb)是一种不使用载波的无线通信技术。
Ultra Wide-band (UWB) is a kind of Wireless Communication without carrier wave.
超宽带技术在通信、雷达等众多领域获得广泛应用,时域天线是其关键技术。
Ultra-wide band (UWB) technology is widely used in many fields such as communication and radar. Time-domain antenna is important for UWB technology.
研究资源管理中的带宽和速率分配,将合作博弈算法用于超宽带技术中的资源管理。
The study does researches in bandwidth and rate control of resource management. Cooperative game theory is used for resource allocation.
自超宽带(UWB)技术被提出以来,由于超宽带信号独特的传播特性,超宽带技术有了越来越广泛的应用。
Since the ultra-wide band (UWB) technology has been introduced, it has become more and more widely used due to the unique characteristics of the ultra-wideband signal propagation.
近几年来超宽带技术已成为无线通信领域最热门的研究课题之一,同时也成为短距离高速无线通信协议标准争论的焦点。
Recentlly UWB technology has become one of the hot points of research on wireless communication, and the controversy focus on the standard of the protocol of short-range wireless communication.
当超宽带技术走向标准化和产品化时,一个待决定的问题是:是否采纳一些其它无线网络中的MAC技术或者完全开发新的技术。
When UWB technology become standardization and product, one problem need to be resolved, that is whether use MAC in other wireless network or develop new technology.
首先分析了超宽带技术与传统的直接序列扩频技术的区别,然后建立了TH -IR和DS - IR超宽带系统的仿真模型,得到两种IR系统在多种干扰条件下的误码率性能。
The difference between UWB and the traditional direct sequence spread spectrum technology was analyzed, and the simulation models of TH-IR and DS-IR systems were installed.
超宽带脉冲是运用超高频在很短的距离内传输海量数据的最新尖端技术,比如从iPod样式的播放器向电视银屏传输视频文件。
A new advance is ultra-wideband (UWB) technology, which USES very high frequencies at very short range to transmit huge amounts of data, as in sending video from an iPod-like device to a TV screen.
两个设备通过无线USB通讯,一种超宽带(UWB)无线技术。
The two devices communicate via Wireless USB, an Ultra Wide Band (UWB) wireless technology.
实时定位系统 (RTLS)使用无线技术(比如Wi-Fi、超宽带、RFID、蓝牙和 GPS)来实时识别并跟踪生产资源或人员的位置。
Real time locating systems (RTLS) use wireless technologies such as Wi-Fi, ultra-wideband, RFID, Bluetooth, and GPS to identify and track the location of items or people in real time.
这些机器人使用激光测距机和超宽带无线电波(ultra -wideband radio)技术来侦测与障碍物之间的距离。
The robots use laser range finders and ultra-wideband radio to determine distance to obstacles.
超宽带信号接收技术是高码率接收系统的关键技术之一,正交接收机是实现超宽带信号接收的典型方案。
The receive technology of Ultra-Wide Band (UWB) signal is one of the key technologies of high-speed receiver. Quadrature receiver is typical scheme in high- speed receiver.
介绍超宽带线性调频信号基带的数字产生方法及其实现技术。
In this paper, the digital generation methods and the implementation techniques for Ultra wideband LFM baseband signals are introduced.
近年来,超宽带脉冲无线电UWB-IR传输技术以低功耗、高速率、低检测率和低截获率等特点受到军事通信领域的关注。
UWB-IR technology has been concerned in military communications in recent years because of its high data rate, low power consumption, low probability of detection and low probability of interception.
时间脉冲位置调制(PPM)技术在超宽带无线数字通信领域得到了广泛应用。
The pulse position modulation (PPM) technique is widely used in the field of ultra-wideband wireless digital communication.
超宽带(UW B)技术实现的关键之一是如何设计并产生可以控制的UW B极窄脉冲。
The key of Ultra-wideband(UWB) technology lies in how to generate the fast rise-time and short-duration pulse.
第二章在分析应用软件无线电技术优势的基础上,提出了一种全数字化超宽带接收器的设计方案。
In the second chapter, at the foundation of analysis of the application software wireless technology's advantage, a plan of all digital Ultra-Wideband receiver is brought forward.
在超宽带无线电通信中,跳时技术起着至关重要的作用。
In the UWB wireless communication system, time-hopping technique plays a key role.
本文介绍一种超宽带无线接入技术的特点和接收、发射部分的基本结构。
The paper introduces the characteristics and the structure of receiving and sending of UWB wireless access technology.
该文研究超宽带无线网络的媒体接入控制技术和协议。
This paper studies the media access control protocol and key technologies in ultra-wideband wireless networks.
超宽带(UWB)技术在无线定位的应用上具有很大的优势。
Ultra-Wide Band(UWB)technique has prevailed in wireless positioning system.
超宽带冲激无线电技术是近年来新兴的通信技术,其主要核心技术是采用了冲激脉冲技术和跳时码调制。
The UWB impulse radio technology is a new kind of communication method these years, in which the swash impulse and time-hopping code modulation techniques are mainly applied.
本文首先针对超宽带收发系统的特点讨论了宽带、低失真系统的设计技术。
The design technology of wide band and low distortion system is discussed according to the characteristic of UWB transmit-receive system.
超宽带是高速无线通信的新技术,然而其较大的带宽会落入GPS频带范围内,造成对GPS信号的干扰。
Ultrawideband is a new technology in high speed wireless communication, but the band′s width will fall into the frequence range of GPS, cause interference to GPS signal.
在研究匹配滤波和重采样原理的基础上,利用频带分割和多通道综合技术实现超宽带信号的脉冲压缩。
Then, a method exploiting the techniques of intersection of spectrum and multi-channel synthesis is presented to fulfill the pulse compression of the ultra-wideband signal.
提出了实用的超宽带sar射频干扰(RFI)和相干斑噪声抑制技术。
The practical RFI and speckle noise suppression techniques for ultra-wideband SAR are proposed.
同时,利用中频数字直接产生技术辅以倍频链还可实现宽带、超宽带雷达脉冲压缩信号的产生。
Meanwhile, this technology cooperating double frequency chain can also generate wide band and ultra-wide band radar pulse compression signals.
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