物联网背后的技术包括RFID(无线射频识别),传感器和智能手机。
Underlying the Internet of Things are technologies such as RFID (radio frequency identification), sensors, and smartphones.
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.
一些国家目前正尝试在供应链管理系统内通过无线射频识别和更复杂的技术来追踪产品。
Radio frequency identification (RFID) and more sophisticated technologies for product tracking within supply chain management systems are being experimented in some countries.
这简单的用户界面不仅能给他们指明方向,他们还可以与有无线射频识别技术或是蓝牙的自动售票机等设备进行“交流”。
This simple user interface would not only allow them to get directions, but would also allow them to interact with devices such as vending or ticket machines that are embedded with RFID or Bluetooth.
同样,老式晶体管收音机,以及日益普及于航运及防盗装置上的,更新式的现代无线射频识别技术(RFID),都是仅仅从无线电波中获取能量。
And similarly old crystal radio sets and more recently modern radio frequency identification (RFID) tags, increasingly used in shipping and as antitheft devices, are powered purely by radiowaves.
比起无线射频识别技术(RFID),电磁波传导技术更为安全,对大脑也没有损害,因为它的磁场比美国及其它国家所规定的强度还要低。
The tech is more secure than RFID and they even say it’s safe for our brains because “it’s under a certain limitation in the magnetic field, ” set by the U.S. and other national governments.
Comtech公司的典型mt- 2012机动卫星无线收发器具备安全的全球定位系统(GPS)能力,也能嵌入无线射频识别(RFID)技术。
Comtech's Model MT-2012 mobile satellite transceivers feature secure global positioning system (GPS) capabilities, as well as embedded radio frequency identification (RFID) technology.
这种改进的技术包括下列三个步骤:利用增强的X射线显示出藏匿的物品、利用传感技术搜寻危险化学品,并利用无线射频技术识别液态和固态物质。
There are three main approaches: enhanced x-rays to spot hidden objects, sensor technology to sniff dangerous chemicals, and radio frequencies that can identify liquids and solids.
阿尔德沃思说:“每一辆自行车、每一条会员的钥匙、每一个存车处都附有一个独特的电子标签芯片(RFIDchip,亦称无线射频技术)与序列号来加以识别。
“Every cycle, every member key and every docking point is identifiable via a unique RFID chip and number, ” says Aldworth.
本文研究的是基于SPCE061A的多自由度假手语音控制系统,即利用语音识别和无线传输技术实现对多自由度假手的远程语音控制。
This paper describes a speech recognition control system for prosthetic hand based on SPCE061A microcontroller core. A prosthetic hand is controlled by speech recognition and wireless communication.
电子标签芯片是无线射频识别(RFID)技术的核心,其模拟电路的设计十分关键。
Transponder IC is the core of Radio Frequency Identification (RFID) technique, and its analog circuit design is very important.
这种无线技术称为无线电频率识别(RFID),曾在成千的存储器运用追踪以及在正电子发射体层摄影的鉴定植入芯片中鉴定识别。
The wireless technology, called radio frequency identification (RFID), has been used in thousands of stores for tracking inventory and in identification chips implanted in some pets.
因此将无线射频识别技术(RFID)应用在邮件处理中是非常符合市场需求的。
So using radio frequency identification technology (RFID) applications in the mail handling is very much in line with market demand.
前言:目的:探讨无线射频识别技术在药品安全监管领域的应用与作用。
Aim: To explore the effect of radio frequency identification (RFID) technology used in the area of drug security control.
本课题的研究和开发涉及了无线射频识别、嵌入式、无线通讯、数据库管理等综合技术。
The research and development of this task deal with the integrated technologies, such as radio frequency identification, application-embedded, wireless communication and management of data base, etc.
本文针对无线射频识别技术(RFID)的特点,研究RFID在药品安全管理中的应用。
According to the characteristic of Radio Frequency Identification (RFID), the paper studies the application of RFID in drug safety management.
通信信号的自动识别与参数估计技术可用于有关职能部门对无线电信号进行认证、实施频谱监管。
The automatic recognition and parameter estimation techniques of communication signals can be utilized in the authentication and spectrum management for radio signals.
本文提出了采用单片机和数字滤波技术对一种港口双曲线无线电导航系统的相位信号进行滤波处理和巷识别的方案。
Scheme is proposed of using a computer on sline and digital filtering technique to perform digital filtering and lane identification of the phase signals of a port radio navigation system.
它的无线技术使用户能够在一项活动中或电缆安装困难的远程站点上建立一个识别系统。
Its wireless technology allows users to build an identification system for an event or on a remote site where cable installation is difficult.
射频识别技术是利用无线信道实现双向通信的一种识别技术。
RFID (Radio Frequency identification) is one of the identification technologies which can realize intercommunication by using wireless channel.
通过对无线射频识别技术(简称RFID)的简要介绍,论述了RFID在图书馆中的应用优势及存在的问题。
By brief introduction of distinguishing technology from Radio Frequency Identification (abbreviated "RFID"), it discourses on advantages and problems of using RFID in library.
无线射频识别技术(RFID)是一种非接触式的自动识别技术,识别工作无须人工干预。
Radio Frequency identification (RFID) is a non-contact automatic identification technology, whose work can be done without any manual intervention.
无从知道无线射频识别技术和相关的技术在将来会得到怎样的利用,不过这里随便给出一个猜测:不会用来购买牛奶。
Not for pop music. Who knows how RFID and related technologies will be used in the future. Here's a wild guess: Not for buying milk.
为了实现珍贵图书的智能检索与管理,提出了一个基于无线射频识别技术(RFID)的解决方案。
To achieve the intelligent retrieval and management of the precious books, a solution based on wireless RF identification (RFID) is proposed.
EKEMP电子有限公司是在无线解决方案的高新技术企业,自动识别领域,移动数据采集终端和行业解决方案的物流区。
EKEMP Electronics Ltd. is Hi-tech Enterprise in wireless solutions, automatic identify area, mobile data collection terminal and industry solution of logistics area.
本文提出了采用单片机和数字滤波技术对一种港口双曲线无线电导航系统的相位信号进行滤波处理和巷识别的方案。
A Scheme is proposed of using a computer on sline and digital filtering technique to perform digital filtering and lane identification of the phase signals of a port radio navigation system.
射频识别技术是利用无线信道实现双向通信的一种识别技术。
RFID (Radio Frequency identification) is one of the identification technologies which can realize intercommunication by using wirelesss channel.
无线射频识别(RFID)技术作为目前众多先进领域技术之一,开辟了普适计算领域内新的历史篇章。
Radio Frequency Identification (RFID) is one of the core technologies which can open the new era of ubiquitous computing history.
RFID系统相比较传统的物体识别技术有很多的优点例如:省时、可靠、无线连接等等,但是其也有冲突的问题。
RFID system has many virtues compared to traditional object identification such as time saving, reliable, wireless and so on, but it also has a problem called collision.
RFID系统相比较传统的物体识别技术有很多的优点例如:省时、可靠、无线连接等等,但是其也有冲突的问题。
RFID system has many virtues compared to traditional object identification such as time saving, reliable, wireless and so on, but it also has a problem called collision.
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