局域网外文翻译(一)

常用局域网协议在当今数字化的时代，局域网（Local Area Network，简称 LAN）在企业、学校、家庭等各种场景中发挥着至关重要的作用。

而要使局域网能够高效、稳定地运行，离不开一系列协议的支持。

这些协议就像是局域网中的“交通规则”，规范着数据的传输和交换。

接下来，让我们一起了解一些常用的局域网协议。

一、以太网协议（Ethernet）以太网是应用最为广泛的局域网技术之一。

它采用了一种称为“载波监听多路访问/冲突检测”（Carrier Sense Multiple Access with Collision Detection，简称 CSMA/CD）的访问控制方法。

简单来说，当一台计算机想要发送数据时，它会先监听网络线路，看看是否有其他计算机正在传输数据。

如果线路空闲，它就会开始发送数据。

但由于网络中的计算机可能会同时尝试发送数据，从而导致冲突。

当发生冲突时，发送数据的计算机都会检测到，并各自等待一段随机的时间后重新尝试发送。

以太网协议支持多种传输速率，从早期的 10Mbps 到如今常见的100Mbps、1000Mbps 甚至更高。

它具有简单、易于实现和成本低等优点，这也是其广泛应用的重要原因之一。

二、令牌环网协议（Token Ring）令牌环网是另一种早期的局域网技术。

在令牌环网中，数据传输是通过一个称为“令牌”的特殊帧来控制的。

令牌在网络中的各个节点之间依次传递。

只有拥有令牌的节点才有权利发送数据。

当一个节点完成数据发送后，令牌会被传递给下一个节点。

这种方式可以避免数据冲突的发生，但相对来说，其实现较为复杂，且在网络负载较大时，可能会出现令牌传递延迟等问题。

三、无线局域网协议（WiFi）随着无线技术的发展，无线局域网（Wireless Local Area Network，简称 WLAN）越来越普及，而 WiFi 则是其中最常见的协议之一。

WiFi 协议包括多个版本，如 80211a、80211b、80211g、80211n 和80211ac 等。

无线局域网概览无线局域网（WLAN ）一般是一个有线局域网的延伸。

无线局域网组件将数据包转换成无线电波或红外线（IR ）光脉冲，并传送到其他无线装置，或到一个作为通往有线局域网效劳的接入点。

现今大多数无线局域网是基于IEEE 和标准之间的无线通信设备和网络。

这些标准予诺数据传输别离在1到2 Mbps 或5至11 Mbps。

并指定一个一起的架构，传输方式，及其他方面的无线数据传输，以改善互操作性的产品。

技术在设计一个无线局域网解决方案时，制成品无线局域网有多种技术选择。

每种技术来都有自身的优势和局限性。

窄带技术窄带无线电系统在一个特定的无线电频率传输和接收用户信息。

窄带无线电频率维持其频带为可能方才通过信息的大小。

在不同的频道频率认真和谐不同用户可幸免通信渠道之间产生不良的串音。

私人线很像一个电台频率。

当每一个家庭在一个居委会有自己的私人线，人们在一个主页不能听其他家的。

在无线电系统，隐私和不干与是完成所要求作出其他的家园。

无线电接收器过滤掉所有的无线电信号，除那些指定的频率。

从客户角度来看，有一个缺点，窄带技术是最终用户，针对每一个招聘网站的地址，必需取得FCC的许可。

扩频技术大多数无线局域网系统利用扩频技术，军事开发的宽带射频技术使用在靠得住，平安，关键任务通信系统。

扩展频谱是旨在提供高的带宽利用率，靠得住性，完整性和平安性。

换言之，在窄带传输中更多的带宽被消耗，但衡量所产生的信号，在成效，声音方面，更易侦测，只要接收机知悉对扩频信号播出的参数。

若是接收机没有调整在正确的频率，扩频信号看起来像背景噪音。

有两种类型的无线扩频：跳频和直接序列。

跳频扩频技术跳频扩谱（fhss ）不管发射机和接收机，在一个众所周知的模式利用窄频载波转变的频率。

妥帖同步，净成效是要维持一个单一的逻辑通道。

关于一个意想不到的接收器，fhss似乎是短时脉冲噪声。

直接序列扩频技术直接序列扩展频谱（扩频）为每个位元生成一个多余的比特模式，以转交。

局域网的英文缩写是什么简写及英文翻译局域网的英文缩写是LAN，它的英文全称是Local Area Network。

一、LAN的概念及主要特点局域网是一种用于小范围内计算机和网络设备相互连接和通信的网络。

它通常覆盖一个建筑物或者一个相对较小的地理范围。

与广域网（WAN）相比，局域网的覆盖范围较小且速度更快。

1.1 局域网的定义局域网是指在一定的范围内使用相同的通信协议和设备互相连接起来的多台计算机的集合。

它采用高速传输媒体（如以太网）进行数据交换，具有高速、低延迟的特点。

1.2 局域网的主要特点（1）局限性：局域网的范围通常不超过一个建筑物或者一个地理位置，如办公室、学校等。

（2）高速性：局域网采用高速传输媒体和设备，实现快速的数据传输和处理。

（3）低成本：由于局域网范围小且设备相对集中，其建设和维护成本相对较低。

（4）易管理：局域网内的计算机和设备相对较少，管理起来相对简单。

（5）数据安全性：局域网内的通信相对封闭，对外部网络的攻击风险相对较低。

二、LAN的应用领域和重要性2.1 LAN的应用领域局域网广泛应用于以下领域：（1）企事业单位：用于内部员工间的办公协同和数据共享，提高工作效率。

（2）学校和教育机构：用于教学和学生学习资源的共享与交流。

（3）医疗机构：用于医院内部的医疗信息系统、病历管理等。

（4）酒店和商场：提供无线网络服务，满足顾客上网需求。

（5）家庭网络：用于家庭内部各种设备的互联和共享。

2.2 LAN的重要性（1）便捷的资源共享：局域网使得多台计算机能够共享数据、打印机、存储设备等资源，提高工作效率。

（2）高效的信息交流：局域网内的计算机可以快速高效地进行信息交流，提升了沟通效率。

（3）支持多媒体应用：局域网的高速传输和低时延性能，支持视频、音频等多媒体应用的流畅播放和传输。

（4）提升工作效率：使用局域网可以实现文件的快速传输和共享，节约了时间和精力。

三、其他与局域网相关的技术和知识3.1 WLANWLAN是无线局域网（Wireless Local Area Network）的缩写，它是一种使用无线传输技术的局域网。

专业外语英汉对照A ccess Control List（ACL）访问控制列表access token 访问令牌account lockout 帐号封锁account policies 记帐策略accounts 帐号adapter 适配器adaptive speed leveling 自适应速率等级调整Address Resolution Protocol(ARP) 地址解析协议Administrator account 管理员帐号algorithm 算法alias 别名alias 小应用程序allocation layer 应用层allocation 分配、定位anlpasswd 一种与Passwd+相似的代理密码检查器API 应用程序编程接口applications 应用程序ARPANET 阿帕网（internet的前身）ATM 异步传递模式attack 攻击audio policy 审记策略auditing 审记、监察authentication 认证、鉴别authorization 授权Back Office Microsoft公司的一种软件包Back up 备份back-end 后端backup browser 后备浏览器baseline 基线BDC 备份域控制器BGP 引导网关协议Binding 联编、汇集BIOS 基本输入/输出系统bit 比特、二进制位BOOTP 引导协议borde gateway 边界网关borde 边界Bottleneck 瓶径breach 攻破、违反breakabie 可破密的bridge 网桥、桥接器browser 浏览器browsing 浏览CAlass A domain A类域CAlass B domain B类域CAlass C domain C类域CD-ROM 只读型光盘CGI 公共网关接口 CGI（Common Gateway Interface公用网关接口是一个可以产生相同结果或结果随用户输入而变化的程序。

网络的分类名词解释英文随着科技的进步和互联网的普及，网络已经成为人们日常生活中不可或缺的一部分。

网络不仅仅是人们获取信息、交流和娱乐的工具，也是连接全球的桥梁。

不同类型的网络在实现不同功能和目标方面有着不同的用途和命名分类。

本文将介绍一些常见的网络分类，并提供相关英文解释。

1. 局域网（Local Area Network，缩写为LAN）局域网是指在一个较小范围内以计算机网络为基础建立的网络。

它主要用于办公室、学校和家庭等局限空间内的计算机之间的数据传输和资源共享。

LAN通常由一组相互连接的计算机、服务器、打印机和其他网络设备组成。

它可以通过有线或无线连接来实现，并通常由路由器或交换机进行控制和管理。

2. 广域网（Wide Area Network，缩写为WAN）广域网是指跨越较大地理范围的计算机网络。

它可以连接不同城市、国家甚至是全球范围内的计算机和网络设备。

WAN通过使用公共或专用的传输线路、卫星链路或电话网络来连接不同地点的计算机。

常见的例子包括互联网和公司间的专用网络。

3. 无线局域网（Wireless Local Area Network，缩写为WLAN）无线局域网是指使用无线通信技术构建的局域网。

它使用无线电波或红外线信号来传输数据，使得设备可以无线连接到局域网并进行通信。

WLAN通常由无线路由器、无线适配器和移动设备组成。

它广泛应用于家庭、办公室、机场、图书馆等场所，为用户提供无线上网和移动性。

4. 全球性网络（Internet）全球性网络，即互联网，是连接世界上所有计算机网络的网络。

它是一个开放的、去中心化的网络，使全球各地的计算机能够互相通信和传输数据。

互联网使用标准的互联网协议（TCP/IP）进行数据传输，通过因特网服务提供商（ISP）连接到互联网。

它提供了无限的资源和信息，涵盖了各种服务和应用，如电子邮件、搜索引擎、社交媒体和在线购物等。

5. 虚拟专用网（Virtual Private Network，缩写为VPN）虚拟专用网是一种通过公共网络（如互联网）创建的安全连接。

AbstractThis paper focuses on the development of an energy efficent street lighting remote management system making use of low-rate wireless personal area networks and the Digital Addressable Lighting Interface (DALI) protocol to get a duplex communication, necessary for checking lamp parameters like lamp status, current level ,etc.Because of the fact that two thirds of the installed street lighting systems use old and inefficient technologies there exists a huge potential to renew the street lighting and save in the energy consumption. The proposed system uses DALI protocol in street lighting increasing the maximum number of slave devices (ballasts) that can be controlled with DALI-originally it can only have 64 ballasts. Some aspects regarding the lighting control protocol and the communication system are discussed, presenting experimental results obtained from several tests.IntroductionTwo thirds of the current installed street lighting systems still use very old and inefficient technologies, that is , there exists a huge potential to renew the existing street lighting and save in the energy consumption[1]. It is estimated that nearly the 5% of the energy used in lighting applications is consumed by the street lighting, being the most important energy regarding the energy usage in a city . New industrial approaches have been develop recently in order to achieve an efficient lighting, which can be summarized in improvements in lamps' technology and electronic ballasts, soft start systems, noiseless performance and lighting automatisms.Saving energy in street lighting can be achieved with two methods,by controlling the light duration or by dimming. There also exist remote management systems that allow the user to keep an individual remote control and monitorization of every single lamp. By making use of these systems the operator can monitor the main parameters of any light point from a central or mobile unit. The obtained data are ready for processing, allowing the reckoning of statistical consumption, lamp status, voltages, anomalies,ect,decreasing the mean time to repair. Another interesting parameter could be the arc voltage level, which can mean the change of a corrective or preventive maintenance to a predictive one, saving money in the maintenance cost.In order to have an optimum control, the remote management system should allow a duplex or half/duplex communication between the user and the ballast; otherwise we could not know the lighting status. The management system is implemented using a communication system and a lighting control protocol. The communication system can be wired,such as Ethernet, optical fiber and Power Line Carrier(PLC) or wireless. Among the last group we have GSM/GPRS, RF,WiFi,WiMAX,IEEE802.15.4 and ZigBee have brought about the boom of wireless sensor networks(WSNs).A comprehensive study of the state of the art of WSNs and both standards can be found in [2] and [3].A WSN consists of tiny sensor nodes, sink nodes, an information transport network and personal computers. Usually, WSN architecture consists of three layers, the physical layer, the MAC layer and the application layer. The IEEE802.15.4 standard deals with Low-Rate Wireless Personal Area Networks(LR-WPAN); its aim is to standardize the two lower layers of OSI protocol stack, i.e.physical layer and medium access control layer. It only considers star and peer-to-peer network topologies. On the other hand , ZigBee defines the upper layers, network and application layers, its main contribution is to provide the ability of forming cluster,tree and meshnetwork topologies to IEEE802.15.4 applicationsAs regards the lighting control protocol, it can be chosen between an open protocol,like TCP/IP , BACNet, DMX512,LONWorks,X-10, 0-10 V or DALI, or proprietary.DALI stands for Digital Addressable Lighting Interface, it was defined by annex E.4 of IEC 60929 as a digital signal controller for tubular fluorescent lamp ballasts' control interface and modified by IEC 62386, which also integrates other application of DALI apart from lighting and extends the kind of lamp to high intensity discharge (HID), halogens, incandescent, LEDs,etc.This paper focuses on developing a street lighting management system by making use of wireless sensor networks and DALI ballasts, materials used in the system are described and results about tests and measurements are presented.BackgroundSeveral scientific researches have been carried out in order to take the WSN advantages to the street lighting systems. For example, reference[4] explains the development of a wireless control system based on ZigBee. Their system allows the user to control and monitor the state of the lighting , but they do not focus on the energy efficienty, just the maintenance and the removal of wires in public areas for the people safety. Reference[5] gives a more complex exemple of WSN applied to street lighting, they develop a system that consists of sensor nodes placed in streetlight poles, a sink node in transformer station which controls every sensor node placed in a pole that belongs to that transformer station. The information of any sink node is sent to the control center via GPRS. The system also has individual or bank dimming up to 60% in order to save the energy consumption. Reference[6] states the main features of a WSN to be used as a street lighting control system, they use 6LoWPAN instead of ZigBee due to ZigBee routing protocols drawbacks and the ease of adapting 6LoWPAN, which does not define routing protocols, to any specific system文摘这一张主要是关注基于无线节能局域网和DALI协议的节能型路灯的远程控制系统之间的连接，用于检查单个路灯，比如路灯的位置、路灯的电流等。

计算机网络中英翻译ACK (ACKnowledgement) 确认帧ADSL (Asymmetric Digital Subscriber Line) 非对称数字用户线AN (Access Network ）接入网ANSI (American National Standards Institute) 美国国家标准协会AP (Access Point) 接入点API (Application Programming Interface) 应用编程接口APNIC (Asia Pacific Network Information Center) 亚太网络信息中心ARP （ Address Resolution Protocol ）地址解析协议ARPA (Advanced Research Project Agency)美国国防部远景研究规划局（高级研究计划署）ARQ (Automatic Repeat reQuest) 自动请求重发ATM (Asynchronous Transfer Mode) 异步传递方式ATU (Access Termination Unit) 接入端接单元ATU-C (Access Termination Unit Central Office ）端局接入端接单元ATU-R (Access Termination Unit Remote) 远端接入端接单元AUI (Attachment Unit Interface ）连接接口单元AWT （ Abstract Window Toolkit ）抽象窗口工具箱BECN (Backward Explicit Congestion Notification) 反向显式拥塞通知BER (Basic Encoding Rule) 基本编码规则BGP (Border Gateway Protocol) 边界网关协议BSA (Basic Service Area) 基本服务区BSS (Basic Service Set) 基本服务集BNA 宝来网络体系结构CAC (Connection Admission Control) 连接准许控制CAP (Carrierless Amplitude Phase) 无载波振幅相位调制CATV (Community Antenna TV, CAble TV) 有线电视CBR （ Constant Bit Rate ）恒定比特率CCIR (Consultative Committee，International Radio) 国际无线电咨询委员会CCITT (Consultative Committee, International Telegraph and Telephone)国际电报电话咨询委员会CCP 通信控制处理机CDM (Code Division Multiplexing) 码分复用CDMA (Code Division Multiplex Access) 码分多址CNNIC (Network Information Center of China) 中国互联网络信息中心CRC (Cyclic Redundancy Check) 循环冗余检验CSMA/CD (Carrier Sense Multiple Access ／ Collision Detection)载波监听多点接入/碰撞检测CSU/DSU （ Channel Service Unit/Data Service Unit) 信道服务单元／数据服务单元CTD (Cell Transfer Delay) 信元传送时延DACS (Digital Access and Cross-connect System) 数字交接系统DCA 数据通信体系结构DCE (Data Circuit-terminating Equipment) 数据电路端接设备DE (Discard Eligibility) 丢弃指示DES (Data Encryption Standard) 数据加密标准DHCP (Dynamic Host Configuration Protocol) 动态主机配置协议DLCI (Data Link Connection Identifier) 数据链路连接标识符DMT (Discrete Multi-Tone) 离散多音（调制）DNS (Domain Name System) 域名系统DNA 数据网络系统结构DSL (Digital Subscriber Line) 数字用户线DSLAM (DSL Access Multiplexer) 数字用户线接入复用器DSSS (Direct Sequence Spread Spectrum) 直接序列扩频DTE (Data Terminal Equipment) 数据终端设备DVMRP (Distance Vector Multicast Routing Protocol) 距离向量多播路由选择协议DWDM (Dense WDM) 密集波分复用EGP (External Gateway Protocol) 外部网关协议EIA (Electronic Industries Association ）美国电子工业协会ESP (Encapsulating Security Payload) 封装安全有效载荷ESS 伍 xtended Service Set) 扩展的服务集FCS (Frame Check Sequence) 帧检验序列FDDI (Fiber Distributed Data Interface ）光纤分布式数据接口FDM (Frequency Division Multiplexing) 频分复用FEC (Forwarding Equivalence Class) 转发等价类FEC (Forward Error Correction) 前向纠错FHSS (Frequency Hopping Spread Spectrum) 跳频扩频FIFO （ First In First Out) 先进先出FQ (Fair Queuing) 公平排队FR (Frame Relay) 帧中继FSK (Frequency Shift Keying) 移频键控FTP (File Transfer Protocol ）文件传送协议FTTB (Fiber To The Building) 光纤到大楼FTTC (Fiber To The Curb ）光纤到路边FTTH (Fiber To The Home) 光纤到家FTTD (Fiber To The Desk) 光纤到桌面FTTZ(Fiber To The Zone ）光纤到小区FTTO (Fiber To The Office) 光纤到办公室FTTF (Fiber To The Floor) 光纤到楼层GIF (Graphics Interchange Format) 图形交换格式GII (Global Information Infrastructure) 全球信息基础结构，全球信息基础设施GFC （ Generic Flow Control) 通用流量控制GSM (Group Special Mobile) 群组专用移动通信体制HDLC (High-level Data Link Control) 面向比特的链路控制规程HDSL (High speed DSL) 高速数字用户线HEC (Header Error Control) 首部差错控制HFC (Hybrid Fiber Coax) 光纤同轴混合（网）HTML (HyperText Markup Language) 超文本置标语言HTTP (HyperText Transfer Protocol) 超文本传送协议IAB (Internet Architecture Board) 因特网体系结构委员会IAC （ Interpret As Command ）作为命令解释IAHC (Internet International Ad Hoc Committee ）因特网国际特别委员会ICMP （ Internet Control Message Protocol ）因特网控制报文协议IDEA (International Data Encryption Algorithm) 国际数据加密算法IEEE电气和电子工程师协会IESG (Internet Engineering Steering Group) 因特网工程指导小组IETF (Internet Engineering Task Force) 因特网工程部IFS (Inter Frame Space) 帧间间隔IGMP (Internet Group Management Protocol) 因特网组管理协议IGP (Interior Gateway Protocol) 内部网关协议IM (Instant Messaging) 即时传信IMAP (Internet Message Access Protocol) 因特网报文存取协议IMP （ Interface Message Processor) 接口报文处理机IP (Internet Protocol ）网际协议IR (InfraRed ）红外技术IRTF （ Internet Research Task Force ）因特网研究部ISDN (Integrated Services Digital Network) 综合业务数字网ISO （ International Organization for Standardization ）国际标准化组织ISOC (Internet Society) 因特网协会ISP （ Internet Service Provider) 因特网服务提供者ITU （ International Telecommunication Union ）国际电信联盟ITU-T （ ITU Telecommunication Standardization Sector) 国际电信联盟电信标准化部门JPEG (Joint Photographic Expert Group) 联合图像专家组标准KDC (Key Distribution Center) 密钥分配中心LAN (Local Area Network ）局域网LANE (LAN Emulation ）局域网仿真LAPB (Link Access Procedure Balanced) 链路接入规程（平衡型）LCP (Link Control Protocol) 链路控制协议LDP (Label Distribution Protocol) 标记分配协议LLC (Logical Link Control) 逻辑链路控制LSP (Label Switched Path) 标记交换路径LSR (Label Switching Router) 标记交换路由器MAC (Medium Access Control) 媒体接入控制MAN (Metropolitan Area Network) 城域网MAU (Medium Attachment Unit) 媒体连接单元MBONE (Multicast Backbone On the InterNEt ）多播主干网MBS (Maximum Burst Size ）最大突发长度MCR (Minimum Cell Rate ）最小信元速率 MCU (Multipoint Control Unit)多点控制单元MD (Message Digest) 报文摘要MDI (Medium Dependent Interface ）媒体相关接口MIB (Management Information Base) 管理信息库MIME (Multipurpose Internet Mail Extensions) 通用因特网邮件扩充modem 调制解调器MOTIF (Message Oriented Text Interchange System) 面向报文的电文交换系统MPEG (Motion Picture Experts Group) 活动图像专家组标准MPOA (MultiProtocol Over ATM) 多协议在 ATM 上运行MPLS (MultiProtocol Label Switching) 多协议标记交换MRU (Maximum Receive Unit) 最大接收单元MSS (Maximum Segment Size) 最长报文段MTU (Maximum Transfer Unit) 最大传送单元NAK (Negative AcKnowlegement) 否认帧NAP （ Network Access Point) 网络接入点N.ISDN (Narrowband-ISDN) 窄带综合业务数字网NAT (Network Address Translation ）网络地址转换NAV (Network Al location Vector) 网络分配向量NCP (Network Control Protocol) 网络控制协议NFS (Network File System) 网络文件系统NGI 下一代因特网计划NIA 网络适配器NIC (Network Interface Card) 网络接口卡、网卡NII (National Information Infrastructure) 国家信息基础结构，国家信息基础设施NLRI (Network Layer Reachability Information) 网络层可达性信息NNI (Network-Node Interface) 网络结点接口NSF (National Science Foundation) （美国）国家科学基金会NVT (Network Virtual Terminal ）网络虚拟终端ODBC （Open Database Connection）开放数据库互连OSF （Open Software Fundation ）开放软件基金会OSI （Open System Interconnection ）开放系统互联PBX （Private Branch eXchange ）用户交换机PCM (Pulse Code Modulation ) 脉冲编码调制PCN (Personal Communications Network ) 个人通信网络PCR （Peak Cell Rate ）峰值信元速率PCS 个人通信服务 Personal Communications ServicePDH 准同步数字系列PDA 个人数字助理 Personal Digital AssistantPDN 公用数据网 Public Data NetworkPDU 协议数据单元 Protocol Data UnitPER 分组差错率 packet error ratePIR 分组插入率 packet insertion ratePLCP 物理层会聚协议 Physical Layer Convergence ProtocolPLR 分组丢失率 packet loss ratePMD 物理媒体相关（子层） Physical Medium DependentPPP 点到点协议 Point to Point ProtocolPPTP 点对点隧道协议PRM 协议参考模型 Protocol Reference ModelPRN 分组无线网 Packet Radio NetworkPSN 分组交换节点 Packet Switch NodePSTN 公用电话交换网 Public Switched Telephone NetworkRARP 逆向地址解析协议 Reverse Address Resolution ProtocolRAS 远程访问服务器RFC 请求评注 Request for CommentsRMON 远程网络管理Router 路由器RPC 远程过程调用 Remote Procedure CallRSVP 资源重复利用协议RTP 接收和发送端口RTS 往返样本 Round Trip SampleRTS 剩余时间标签SAP 业务接入点 Service Access PointSAP 服务公告协议 Service Advertising ProtocolSAR 分段和重组(子层) Segmentation and ReassemblySDH 同步数字系列 Synchronous Digital HierarchySDLC 同步数据链路控制(协议) Advanced Data Communication Control Procedure SDTV 标准数字电视SDU 业务数据单元 Service Data UnitSIPP 增强的简单因特网协议 Simple Internet Protocol PlusSLIP 串行线路IP Serial Line Interface ProtocolSMDS 交换式多兆比特数据业务 Switched Multimegabit Data ServicesSMF 单模光纤 Single-mode FiberSMT 站点管理 Station ManagementSMTP 简单邮件传输协议 Simple Mail Transfer ProtocolSNA 系统网络体系结构 System Network ArchitectureSNMP 简单网络管理协议 Simple Network Management ProtocolSNR 信噪比 Signal-Noise ratioSONET 同步光纤网络 Synchronous Optical NetworkSTM 同步传输方式 Synchronous Transfer ModeSTP 屏蔽双绞线 Shielded Twisted PairSTS 同步传输信号 Synchronous Transport SignalSVC 交换虚电路 Switched Virtual CircuitSwitch 交换机TCP 传输控制协议 Transmission Control ProtocolTDM 时分多路复用 Time Division MultiplexingTFTP 单纯文件传输协议 Trivial File Transfer protocolTelnet 远程登录协议TIP 终端接口处理机 Terminal Interface ProcessorTP 双绞线 Twisted PairTSAP 传输层服务访问点 Transport Service Access PointUDP 用户数据报协议 User Datagram ProtocolUSB 通用串行总线 Universal Serial BusUTP 非屏蔽双绞线 Unshielded Twisted PairVAN 增值网 Value Added NetworkVBR 可变比特率 Variable Bit RateVCC 虚信道连接 Virtual Channel ConnectionVLAN 虚拟局域网 Virtual LANVLSI 超大规模集成电路VOD 点播图像 Video on DemandVPC 虚路径连接 Virtual Path ConnectionVPI 虚路径标识 virtual path identifierVPN 虚拟专用网络 Virtual Private NetworkVRML 虚拟现实造型语言 Virtual Reality Modeling Language VTP 虚拟隧道协议WAN 广域网 Wide Area NetworkWDM 波分多路复用 Wavelength Division MultiplexingWWW 万维网 World Wide Web。

欢迎共阅计算机网络中英翻译ACK(ACKnowledgement)确认帧ADSL(AsymmetricDigitalSubscriberLine)非对称数字用户线AN(AccessNetwork）接入网ANSI(AmericanNationalStandardsInstitute)美国国家标准协会AP(AccessPoint)接入点API(ApplicationProgrammingInterface)应用编程接口APNIC(AsiaPacificNetworkInformationCenter)亚太网络信息中心ARP（AddressResolutionProtocol）地址解析协议AWT（BNACBR（CCPCSMA/CD(CarrierSenseMultipleAccess／CollisionDetection)载波监听多点接入/碰撞检测CSU/DSU（ChannelServiceUnit/DataServiceUnit)信道服务单元／数据服务单元CTD(CellTransferDelay)信元传送时延DACS(DigitalAccessandCross-connectSystem)数字交接系统DCA数据通信体系结构DCE(DataCircuit-terminatingEquipment)数据电路端接设备DE(DiscardEligibility)丢弃指示DES(DataEncryptionStandard)数据加密标准DHCP(DynamicHostConfigurationProtocol)动态主机配置协议DLCI(DataLinkConnectionIdentifier)数据链路连接标识符DMT(DiscreteMulti-Tone)离散多音（调制）DNS(DomainNameSystem)域名系统DNA数据网络系统结构DSL(DigitalSubscriberLine)数字用户线DSLAM(DSLAccessMultiplexer)数字用户线接入复用器DSSS(DirectSequenceSpreadSpectrum)直接序列扩频DTE(DataTerminalEquipment)数据终端设备DVMRP(DistanceVectorMulticastRoutingProtocol)距离向量多播路由选择协议DWDM(DenseWDM)密集波分复用EGP(ExternalGatewayProtocol)外部网关协议EIA(ElectronicIndustriesAssociation）美国电子工业协会ESS伍FCS(FrameFIFO（FR(FrameGFC（HDSL(HighspeedDSL)高速数字用户线HEC(HeaderErrorControl)首部差错控制HFC(HybridFiberCoax)光纤同轴混合（网）HTML(HyperTextMarkupLanguage)超文本置标语言HTTP(HyperTextTransferProtocol)超文本传送协议IAB(InternetArchitectureBoard)因特网体系结构委员会IAC（InterpretAsCommand）作为命令解释IAHC(InternetInternationalAdHocCommittee）因特网国际特别委员会ICMP（InternetControlMessageProtocol）因特网控制报文协议IDEA(InternationalDataEncryptionAlgorithm)国际数据加密算法IEEE电气和电子工程师协会IESG(InternetEngineeringSteeringGroup)因特网工程指导小组IETF(InternetEngineeringTaskForce)因特网工程部IFS(Inter Frame Space)帧间间隔IGMP(InternetGroupManagementProtocol)因特网组管理协议IGP(InteriorGatewayProtocol)内部网关协议IM(InstantMessaging)即时传信IMAP(InternetMessageAccessProtocol)因特网报文存取协议IMP（InterfaceMessageProcessor)接口报文处理机IP(InternetProtocol）网际协议IR(InfraRed）红外技术IRTF（ISO（ISP（ITU（ITU-T（MIB(ManagementInformationBase)管理信息库MIME(MultipurposeInternetMailExtensions)通用因特网邮件扩充modem调制解调器MOTIF(MessageOrientedTextInterchangeSystem)面向报文的电文交换系统MPEG(MotionPictureExpertsGroup)活动图像专家组标准MPOA(MultiProtocolOverATM)多协议在ATM上运行MPLS(MultiProtocolLabelSwitching)多协议标记交换MRU(MaximumReceiveUnit)最大接收单元MSS(MaximumSegmentSize)最长报文段MTU(MaximumTransferUnit)最大传送单元NAK(NegativeAcKnowlegement)否认帧NAP（NetworkAccessPoint)网络接入点N.ISDN(Narrowband-ISDN)窄带综合业务数字网NAT(NetworkAddressTranslation）网络地址转换NAV(NetworkAl location Vector)网络分配向量NCP(NetworkControlProtocol)网络控制协议NFS(NetworkFileSystem)网络文件系统NGI下一代因特网计划NIA网络适配器NIC(NetworkInterfaceCard)网络接口卡、网卡NII(NationalInformationInfrastructure)国家信息基础结构，国家信息基础设施ODBC（OSF（OSI（PBX（PCR（PCSPDHPDAPDNPDUPERPIRPLCPPLRPMDPPPPPTPPRMPRNPSN分组交换节点PacketSwitchNodePSTN公用电话交换网PublicSwitchedTelephoneNetworkRARP逆向地址解析协议ReverseAddressResolutionProtocolRAS远程访问服务器RFC请求评注RequestforCommentsRMON远程网络管理Router路由器RPC远程过程调用RemoteProcedureCallRSVP资源重复利用协议RTP接收和发送端口RTS往返样本RoundTripSampleRTS剩余时间标签SAP业务接入点ServiceAccessPointSAP服务公告协议ServiceAdvertisingProtocolSAR分段和重组(子层)SegmentationandReassemblySDH同步数字系列SynchronousDigitalHierarchySDLC同步数据链路控制(协议)AdvancedDataCommunicationControlProcedure SDTV标准数字电视SDU业务数据单元ServiceDataUnitSIPP增强的简单因特网协议SimpleInternetProtocolPlusSLIP串行线路IPSerialLineInterfaceProtocolSMDSSMFSMTSMTPSNASNMPSNRSONETSTMSTPSTSSVCTCPTDMTFTPVCC虚信道连接VirtualChannelConnectionVLAN虚拟局域网VirtualLANVLSI超大规模集成电路VOD点播图像VideoonDemandVPC虚路径连接VirtualPathConnectionVPI虚路径标识virtualpathidentifierVPN虚拟专用网络VirtualPrivateNetworkVRML虚拟现实造型语言VirtualRealityModelingLanguageVTP虚拟隧道协议WAN广域网WideAreaNetworkWDM波分多路复用WavelengthDivisionMultiplexing WWW万维网WorldWideWeb。

局域网的英文缩写是什么简写及英文翻译局域网是指在某一区域内由多台计算机互联成的计算机组，通常只范围在几百米到几十千米的网络。

今天店铺在这里为大家介绍局域网的英文缩写是什么，欢迎大家阅读!局域网的英文缩写LAN local area network局域网的英文例句1. Users can easily move files between PCs connected by local area networks or the internet.用户可在由局域网或因特网连接的个人计算机之间很容易地传递文件。

2. You can take part in multiplayer games either on a LAN network or via the internet.可以通过局域网或因特网参加多人游戏。

3. The software has already run on a LAN connected by CISCO Catalyst6006 switch.介绍在vxWorks嵌入式操作系统上开发基于SNMP的网络性能监测软件，这个软件已经应用于一个由CISCO Catalyst6006交换机组成的局域网。

4. This article describes how to design a local network video broadcasting receiver.描述了一个局域网视频广播接收器的设计.5. My computer was suddenly disconnected from LAN, how to trouble shoot?我的计算机突然连接不上局域网了, 怎样排除排除故障?6. Diablo Source : Wird es einen Open Modus und einen Lan Modus geben?会开放战网和局域网对战吗?7. Also, the structure of quality information system based onintranet is studied.另外, 文章还研究了以局域网技术为基础的质量管理系统的结构.8. NAS devices provide alternative storage for authorized clients on a LAN.NAS设备为局域网上的授权客户机提供了替代存储.9. Hence they are also referred to as private data networks.于是这类局域网也叫做专用数据网.10. Himself wrote a LAN chat applet to send information.自己写的一个局域网聊天发送信息的小程序.11. Have VLAN function is an important indicator to measure LAN switches.是否具有VLAN功能是衡量局域网交换机的一项重要指标.12. Wireless area network ( WLAN ) is an important part in computer networks.无线局域网是计算机网络的重要组成部分.13. He mapped out his ideas on the project of company's intranet.关于公司的局域网的筹划,他提出了建议.14. Some practical skills are introduced for the users of the local network.针对局域网用户介绍了几种实用的使用技巧,为用户提供一定的方便.15. On the Connections tab, click the LAN Settings button.在“连接”选项卡, 点击“局域网设置”按钮.局域网相关英文阅读：计算机网络介绍Computer network is a system connecting two or more computers. A computer network allows user to exchange data quickly, access and share resources including equipments, application software, and information.计算机网络是连接两个或多个计算机的系统，它允许用户快速地交换数据，访问和共享包括设备、应用软件和信息在内的资源。

Chapter 11.1Internet：因特网Computer network ：计算机网络Host: 主机End system: 终端系统Packet switching: 分组交换Route: 路径Internet service provider (ISP): 因特网服务提供商Protocol: 协议Transmission Control Protocol (TCP)：传输控制协议1.2Client: 客户端Server: 服务器Peer: 对等机Reliable data transfer: 可靠数据传输Flow control: 流量控制Congestion-control: 拥塞控制User Datagram Protocol (UDP): 用户数据报协议1.3Circuit switching: 电路交换/线路交换Packet switching: 分组交换Frequency-division multiplexing (FDM): 频分多路复用Time-division multiplexing (TDM): 时分多路复用Bandwidth: 带宽Time slot: 时隙Frame: 帧Message: 报文:Packet: 分组Store-and-forward: 存储转发Datagram network: 数据报网络Virtual-circuit network: 虚电路网络1.4Router: 路由器Modem: 调制解调器Local area network (LAN): 局域网Ethernet: 以太网Wireless LAN: 无线局域网Guided media: 导向型介质Unguided media: 非导向型介质Twisted-pair copper wire: 双绞线Unshielded twisted pair(UTP): 非屏蔽双绞线Coaxial cable: 同轴电缆Fiber optics: 光线/光缆1.6Nodal processing delay: 结点处理延迟Queuing delay: 排队延迟Transmission delay: 发送延迟Propagation delay: 传播延迟Traffic intensity: 流通强度End-to-end delay: 端到端延迟1.7Layer: 层次Protocol stack: 协议栈Application layer: 应用层Transport layer: 传输层Network layer: 网络层Link layer: 链路层Physical layer: 物理层Encapsulation: 封装Message: 报文Segment: 报文段Datagram: 数据报Frame: 帧Chapter 22.1Client-server architecture: 客户端－服务器体系结构；C/S结构P2P architecture: 对等结构Processes: 进程Socket: 套接字Application programming interface (API): 应用程序编程接口IP address: IP地址Prot number: 端口号Syntax: 语法Semantics: 语义Full-duplex: 全双工Handshaking: 握手Real-time application: 实时应用2.2The World Wide Web: 万维网HyperText Transfer Protocol (HTTP): 超文本传输协议Web page: 网页Object: 对象HyperText Markup Language (HTML): 超文本标记语言URL：统一资源定位符Browser: 浏览器Persistent connection: 持久连接Non-persistent connection: 非持久连接Round-trip time (RTT): 往返时间Without pipelining: 非流水线方式With pipelining: 流水线方式Web cache: web 缓存Proxy server: 代理服务器2.3File Transfer Protocol (FTP): 文件传输协议Control connection: 控制连接Data connection: 数据连接Out-of-band: 带外In-band: 带内2.4Electronic Mail: 电子邮件User agent: 用户代理Mail server: 邮件服务器Simple Mail Transfer Protocol (SMTP): 简单邮件传输协议Mailbox: 邮箱Multipurpose Internet Mail Extensions (MIME): 多用途因特网邮件扩展协议Post Office Protocol (POP): 邮局协议Internet Mail Access Protocol (IMAP): Internet 邮件访问协议2.5 Domain Name System (DNS): 域名系统Hostname: 主机名Host aliasing: 主机别名Mail server aliasing: 邮件服务器别名Load distribution: 负载分配Root DNS server: 根DNS服务器Top-Level Domain (TLD) servers: 顶级域DNS服务器Authoritative DNS servers: 授权DNS服务器；权威DNS服务器Local DNS server: 本地DNS服务器Database: 数据库Chapter 33.1Logical communication: 逻辑通讯3.2Multiplexing: 多路复用Demultiplexing: 多路分解Well-known port number: 众所周知的端口号3.3UDP segment: UDP报文段Checksum: 校验和；检查和Wrapped around: 回卷3.4Channel: 通道；信道Positive acknowledgement : 肯定应答Negative acknowledgement: 否定应答ARQ （automatic repeat request）: 自动重传请求Feedback: 反馈Retransmission: 重传Stop-and-wait protocol: 停止－等待协议Duplicate packets: 冗余分组Sequence number: 顺序号Timer: 定时器Alternating-bit protocol: 比特交替协议Utilization: 利用率Go-back-N (GBN): 回退N步Window size: 窗口大小Sliding-window protocol: 滑动窗口协议Cumulative acknowledgement: 累积确认Timeout: 超时Selective Repeat (SR): 选择重传3.5Connection-oriented: 面向连接Point-to-point: 点到点Three-way handshake: 三次握手Maximum segment size (MSS): 最大报文段大小Maximum transmission unit (MTU): 最大传输单元Piggybacked: 捎带Sample RTT: 样本RTTFast retransmit: 快速重传Selective acknowledgement: 选择确认Flow-control: 流量控制Receive window: 接收窗口3.7Congestion control: 拥塞窗口Self-clocking: 自定时的Additive-increase, multiplicative-decrease: 加性增，乘性减Slow star: 慢启动Congestion avoidance: 拥塞避免Threshold: 阈值Fast recovery: 快速恢复Bottleneck: 瓶颈Latency: 延迟Chapter 44.1Forwarding: 转发Routing: 路由Routing algorithm: 路由算法Forwarding table: 转发表Router: 路由器Jitter: 抖动Best-effort service: 尽力而为的服务4.2Virtual-circuit (VC) network: 虚电路网络Datagram network: 数据报网络Prefix: 前缀Longest prefix matching rule: 最长前缀匹配规则4.3Input port: 输入端口Switching fabric: 交换结构Routing processor: 路由处理器Crossbar: 交叉结构4.4Time-to-live (TTL) :生存时间Fragmentation: 分片；片段Dotted-decimal notation: 点分十进制表示法Subnet: 子网Subnet mask: 子网掩码Classless Interdomain Routing (CIDR): 无类别域际路由选择Dynamic Host Configuration Protocol （DHCP）：动态主机配置协议Plug-and-play: 即插即用Network address translation (NAT): 网络地址转换Internet Control Message Protocol (ICMP): 因特网控制报文协议Dual-stack: 双栈Tunneling: 隧道4.5Default router: 默认路由器Graph: 图A global routing algorithm : 全局路由算法A decentralized routing algorithm : 分布式路由算法Static routing algorithm: 静态路由算法Dynamic routing algorithm : 动态路由算法Link-State (LS): 链路状态Distance-Vector(DV): 距离向量Routing table: 路由表Autonomous system (AS): 自治系统Intra-autonomous system routing protocol: 自治系统内路由协议Inter-AS routing protocol: 自治系统间路由协议4.6Interior gateway protocol: 内部网关协议Routing Information Protocol (RIP): 路由信息协议Open Shortest Path First (OSPF): 开放最短路径优先协议Advertisement: 公告Hop: 跳Border Gateway Protocol (BGP): 边界网关协议4.7Broadcast: 广播Multicast: 多播Chapter 55.1Node: 结点Link: 链路Frame: 帧Medium access control (MAC): 介质访问控制Full-duplex: 全双工Half-duplex: 半双工Adapter: 适配器Network interface card (NIC): 网卡Interface: 接口5.2Parity check: 奇偶校验Odd: 奇数Even: 偶数Cyclic redundancy check (CRC): 循环冗余校验Polynomial: 多项式5.3Collide: 冲突Multiple access protocol: 多路访问协议Channel partitioning protocol: 信道划分协议Random access protocol: 随机访问协议Taking-turns protocol: 轮转协议Code division multiple access (CDMA): 码分多址访问Carrier sensing: 载波侦听Collision detection: 冲突检测Polling protocol: 轮询协议Token-passing protocol: 令牌传递协议Token: 令牌Local Area Network (LAN): 局域网Token-ring: 令牌环Fiber distributed data interface (FDDI): 光纤分布式数据接口Metropolitan Area Network (MAN): 城域网5.4Address Resolution Protocol (ARP): 地址解析协议Dynamic Host Configuration Protocol (DHCP): 动态主机配置协议5.5Ethernet: 以太网Preamble: 前导码Manchester encoding: 曼彻斯特编码5.6Hub: 集线器Collision domain: 冲突域Switch: 交换机Filtering: 过滤Forwarding: 转发Switch table: 交换表Self-learning: 自学习Plug-and-play devices: 即插即用设备Cut-through switching: 直通式交换5.7Point-to-point: (PPP): 点到点。

局域网lan的名词解释局域网（Local Area Network，简称LAN）是指在一个相对较小的范围内，通常是在一个建筑物或办公室内部，通过电缆等物理媒介连接起来的计算机网络。

这种网络的特点是覆盖的范围较小，传输速度较快，并且具有较低的延迟。

一、局域网的定义和发展历程局域网是计算机技术的一项重要应用，它的出现和发展源于对计算机通信的需求。

在计算机技术发展的早期，计算机之间的通信主要通过串行线路实现，而且范围有限，无法满足多台计算机之间的数据交换需求。

为了解决这个问题，人们开始研究如何建立一个局域的计算机网络。

随着技术的进步，局域网开始普及和应用，最早的局域网采用以太网技术，通过共享媒介传输数据。

局域网的建立使得多台计算机可以共享数据和资源，提高了工作效率和数据传输速度。

随着互联网的快速发展，局域网逐渐与互联网相结合，形成了广域网（WAN）和城域网（MAN），构成了大范围网络的基础。

二、局域网的拓扑结构和组成要素1. 拓扑结构局域网的拓扑结构是指计算机之间连接的方式。

常见的局域网拓扑结构有星型、总线型和环型等。

星型拓扑结构是指将所有计算机都连接到一个中心节点上，形成一个星型结构。

总线型拓扑结构是指所有计算机都连接到同一根传输线上，形成一个总线结构。

环型拓扑结构是指所有计算机按照环状连接，形成一个环形结构。

2. 组成要素局域网主要由以下几个组成要素构成：（1）计算机：局域网是由多台计算机组成的，计算机可以是个人电脑、工作站或服务器等。

（2）网络设备：包括路由器、交换机、网卡等设备，用于连接和管理计算机之间的通信。

（3）网络媒介：局域网的数据传输需要一定的物理媒介，如网线、光纤等。

（4）协议：局域网通信需要一定的协议支持，如TCP/IP协议。

（5）网络操作系统：为了管理和控制局域网，通常会使用专门的网络操作系统。

三、局域网的作用和应用领域1. 数据共享和资源共享局域网的一大作用是实现数据共享和资源共享。

Unit 8 puter NetworkingText 1 Data municationsThe end equipmentcan be puters, printers, keyboards, CRTs, and so on.They are either generates the digital information for transmission oruses the received digital data. This equipment generally operates digital information internally in word units.DTE is data terminal equipment. A station controller (STACO)is the corresponding unit at the secondaries. At one time, the DTE was the last piece of equipment that belonged to the subscriber in a data link system. Between the DTEs, first is the modem, and then is the munications equipment. The munication equipment is owned and maintained by Telco. Data munications equipment (DCE) accepts the serial data stream from the DTE. And DCE converts it to some form of analog signal suitable for transmission on voice-grade lines. At the receive end, the DCE performs the reverse function. It converts the received analog signal to a serial digital data stream. The simplest form of DCE is a modem (modulator/demodulator) or data set. At the transmit end, the modem can be considered a form of digital-to-analog converter.While at the receive end, it can be considered a form of analog-to-digital converter.参考译文数据通信终端设备可以是计算机、打印机、键盘、CRT等。

Multimedia（多媒体，指计算机能综合处理声音、图像、影像、动画、文字等多种媒体）CD（Compact Disk，光盘，分为只读光盘和可刻录光盘）CDR（Compact Disk Recordable，可刻录光盘）VCD（Video CD，视频CD）Audio（音频）Video（视频）MPEG（Moving picture expert Group，运动图像专家组，一种压缩比率较大的活动图像和声音的压缩标准）BMP（Bitmap，位图，一种图像格式）Image（图像）Pixel（像素，图像的一个点）WAV（Wave，声波，一种声音格式）MIDI（Musical Instrument Digital Interface，乐器数字接口，声卡上有这种接口，用于与乐器相连）Modem（调制解调器，也称“猫”，用于把电话音频信号变成数字信号）Net（Network，网络）WAN（Wide area network，广域网，指地理上跨越较大范围的跨地区网）LAN（Local area network，局域网，地理上局限在小范围，属于一个单位组建的网）Internet（互联网、因特网、网际网）Server（服务器，网络的核心，信息的集中地）Client（客户，指使用计算机的用户）C/S（Client/Server，客户机/服务器）B/S（Browser/Server，浏览器/服务器，指客户通过浏览器访问服务器的信息）Workstation（工作站，连到服务器的单个计算机）WWW（World Wide Web，万维网，全球范围的节点）BBS（Bulletin Board System，电子布告栏系统）FTP（File Transfer Protocol，文件传送协议，用此协议用户通过Internet将一台计算机上的文件传送到另一台计算机上）HTTP（Hypertext TransferProtocol，超文本传输协议 WWW服务程序所用的协议）HTML（Home Page Marker Language，主页标记语言，用于浏览器浏览显示）Hub（网络集线器，提供许多计算机连接的端口）Router（路由器，互联网的标准设备，具有判断网络地址、选择路径、实现网络互联的功能）Gateway（网关）TCP/IP（Transfer ControlProtocol/Internet Protocol，传输控制/互联网协议）NDS（Domain Name System，域名服务系统）e-mail（Electronic Mail，电子邮件）（Commerce，商业部门的域名）.edu（Education，教育部门的域名）（网络服务部门的域名）.org（Organization，非商业组织的域名）.gov（Government，政府部门的域名）@（电子邮件中用户名与域名的分隔符，读音为at）Optics（光的，Fiber optics 光纤）ISDN（Integrated Services DigitalNetwork，综合服务数字网）DDN（Defense Data Service，数字数据服务）Bandwidth（带宽，网络线路的传输速度）Broad（Band 宽带，可同时在多个通道容纳数据，音像信号）Hacker（黑客，专门在互联网上到处从事解密、获取信息等非正规活动的不明身份的用户）计算机英语基础词汇：PC（Personal Computer，个人计算机）IBM（International Business Machine，美国国际商用机器公司简称，最早的个人计算机品牌）Intel（美国英特尔公司，以生产CPU 芯片着称）Pentium（Intel公司，X86 CPU芯片，中文译名为“奔腾”）IT（Information Technology，信息产业）E-Commerce Eelectronic Business （电子商务）B2C（Business To Customer，商家对顾客, 电子商务的一种模式，还有B2C、C2C模式）Y2K（2k year，两千年问题，千年虫）IC（Integrate Circuit，集成电路）VLSI（Very Large Scale Integration，超大规模集成电路）DIY（Do It Yourself，自己装配计算机）Bit（比特，一个二进制位，通信常用的单位）Byte（字节，由八个二进制位组成，是计算机中表示存储空间的最基本容量单位）K（千，存储空间的容量单位, kilobyte，1K=1024字节）M（兆，megabyte，1M=1024K）G（吉，gigabyte，1G=1024M）T（太，1T=1024G）Binary（二进制，计算机中用的记数制，有0、1两个数字）ASCII（American Standard Code forInformation Interchange，美国信息交换标准代码，成为了一个为世界计算机使用的通用标准）CAI（Computer-AssistedInstruction，计算机辅助教学）CAD（Computer-Aided Design，计算机辅助设计）CAM（Computer-AidedManufacturing，计算机辅助制造）AI（Artificial Intelligence，人工智能）Program（程序，由控制计算机运行的指令组成）Driver（驱动程序或驱动器）Compatibility（兼容，指电脑的通用性）PnP（Plug and Play，即插既用，指计算机器件一装上就可以用）Hardware（硬件，构成计算机的器件）Software（软件，计算机上运行的程序）Courseware（课件，用于教学的软件）计算机术语之硬件篇相关词汇：CPU（Central Processing Unit，中央处理器，计算机的心脏）Memory（存储器，内存）ROM（Read only Memory，只读存储器，只能读不能写）RAM（Random Access Memory，随机存取存储器，内存属于这种存储器）Bus（总线，计算机中信息的路BR>ISA（Industry Standard Architecture，工业标准结构总线）VESA（Video Electronic StandardAssociation，视频电子标准协会的标准总线）PCI（Peripheral ComponentInterconnect，外部互联总线标准）USB（Universal Serial Bus，Intel，公司开发的通用串行总线架构）SCSI（Small Computer SystemInterface，小型计算机系统接口）AGP（Accelerate GraphicsProcessor，加速图形接口）Mouse（鼠标，俗称“鼠”）Keyboard（键盘）CRT（Cathode Ray Tube，阴极射线管，常指显示屏）LCD（Liquid Crystal Display，液晶显示屏）VGA（Video Graphics Array，视频图形阵列，一种显示卡）Resolution（分辨率）Printer（打印机）Scanner（扫描仪）Floppy Disk（软盘）Fixed Disk, Hard Disk（硬盘）CD（Compact Disk，光盘）Adapter（适配器（卡），俗称“卡”，如声卡、显示卡）UPS（Uninterruptible Power System，不间断电源）LPT（Line Printer，打印口，并行口）DPI（Dots Per Inch，每英寸点数，指打印机的分辨率）CPS（Characters Per Second，每秒字符数）PPM（Pages Per Minute，每分钟打印页数）计算机术语之软件篇相关词汇：OS（Operating System，计算机操作系统，计算机中必不可少的软件）DOS（Disk Operating System，磁盘操作系统）Windows NT（一种操作系统，NT New technology，新技术）Linux（一种可免费使用的UNIX操作系统，运行于一般的PC机上，由Linux 开发而得此名）BASIC（Beginner's All-PurposeSymbolic Instruction Code，初学者通用符号指令代码，一种计算机语言，适合于初学者，不要把BASIC当作Basic）Visual BASIC（可视化BASIC语言）Database（数据库）ESC（Escape，退出键）Tab（Table，制表键）Shift（上档键，用于输入双字符键上面部分的字符和在大（小）写字符状态输入小（大）写字符）Ctrl（Control，控制键）Alt（Alter，转换键）Insert,Delete（插入、删除）Home,End（编辑文书时用于回到文书开头、结尾的键）Page Up,Page Down（向前、后翻页键）Num lock（数字锁定键）Scroll lock（屏幕滚动锁定键）Enter（确认键、也有回车换行的作用）Click（点击鼠标）Cut（剪切，指将文本或图形剪切到内存）Copy（复制、拷贝）Paste（粘贴，将剪切、复制到内存的内容粘贴出来）Debug（程序排错，bug意为小虫子，比喻隐藏在程序中的小错误）Virus（计算机病毒，计算机中自我复制传播的程序）Backup（备份）计算机术语之通讯游戏篇相关词汇：通信cti：computer telephoneintegration，计算机电话综合技术dbs: direct broadcast satellite，直接卫星广播dwdm: dense wavelength divisionmultiplex，波长密集型复用技术mmds: multichannel multipointdistribution service，多波段多点分发服务pcm: pulse code modulation，脉冲编码调制pstn(public switched telephonenetwork，公用交换式电话网)tapi: telephony applicationprogramming interface，电话应用程序接口tsapi: telephony servicesapplication programming interface，电话服务应用程序接口wdm: wavelength divisionmultiplex，波分多路复用游戏act(action，动作类游戏)arpg(action role play games，动作角色扮演游戏)avg(adventure genre，冒险类游戏)dan(dance，跳舞类游戏，包括跳舞机、吉它机、打鼓机等)dc(dreamcast，世嘉64位游戏机)etc(etc，其它类游戏，包括模拟飞行)ffj: force feedback joystick(力量反匮式操纵杆)fpp(first person game，第一人称游戏)ftg(fighting game，格斗类游戏)gb(game boy，任天堂4位手提游戏机)gbc(game boy color，任天堂手提16色游戏机)gg(game gear，世嘉彩色手提游戏机)fc(famicom，任天堂8位游戏机)fps(frames per second，帧/秒)fr(frames rate，游戏运行帧数)mac(macintosh，苹果电脑)n64(nintendo 64，任天堂64位游戏机)sfc(super famicom，超级任天堂16位游戏机)slg(simulation game，模拟类游戏)spg(sports games，运动类游戏)srpg(strategies role play games，战略角色扮演游戏)stg(shoot game，射击类游戏)ss(sega saturn，世嘉土星32位游戏机)pc(personal computer，个人计算机)ps(play station，索尼32位游戏机)ps(pocket station，索尼手提游戏机)rac(race，赛车类游戏)rts(real time strategies，实时战略)rpg(role play games，角色扮演游戏)tab(table chess，桌棋类游戏计算机术语之服务器篇相关词汇：c2c: card-to-card interleaving，卡到卡交错存取cc-numa(cache-coherent nonuniform memory access，连贯缓冲非统一内存寻址)chrp(common hardware referenceplatform，共用硬件平台，ibm为powerpc制定的标准，可以兼容mac os, windowsnt, solaris, os/2, linux和aix等多种操作系统)emp: emergency management port，紧急事件管理端口icmb: inter-chassis managementbus, 内部管理总线mpp(massive parallel processing，巨量平行处理架构)mux: data path multiplexor，多重路径数据访问计算机术语之电脑显示器篇相关词汇：ASIC: Application SpecificIntegrated Circuit（特殊应用积体电路）ASC（Auto-Sizing and Centering，自动调效屏幕尺寸和中心位置）ASC（Anti Static Coatings，防静电涂层）AGAS（Anti Glare Anti StaticCoatings，防强光、防静电涂层）BLA: Bearn Landing Area（电子束落区）BMC（Black Matrix Screen，超黑矩阵屏幕）CRC: Cyclical Redundancy Check（循环冗余检查）CRT（Cathode Ray Tube，阴极射线管）DDC：Display Data Channel，显示数据通道DEC（Direct Etching Coatings，表面蚀刻涂层）DFL（Dynamic Focus Lens，动态聚焦）DFS（Digital Flex Scan，数字伸缩扫描）DIC: Digital Image Control（数字图像控制）Digital Multiscan II（数字式智能多频追踪）DLP（digital Light Processing，数字光处理）DOSD: Digital On Screen Display （同屏数字化显示）DPMS（Display Power Management Signalling，显示能源管理信号）Dot Pitch（点距）DQL（Dynamic Quadrapole Lens，动态四极镜）DSP（Digital Signal Processing，数字信号处理）EFEAL（Extended Field Elliptical Aperture Lens，可扩展扫描椭圆孔镜头）FRC: Frame Rate Control（帧比率控制）HVD（High Voltage Differential，高分差动）LCD（liquid crystal display，液晶显示屏）LCOS: Liquid Crystal On Silicon（硅上液晶）LED（light emitting diode，光学二级管）L-SAGIC（Low Power-Small ApertureG1 wiht Impregnated Cathode，低电压光圈阴极管）LVD（Low Voltage Differential，低分差动）LVDS: Low Voltage DifferentialSignal（低电压差动信号）MALS（Multi Astigmatism LensSystem，多重散光聚焦系统）MDA（Monochrome Adapter，单色设备）MS: Magnetic Sensors（磁场感应器）Porous Tungsten（活性钨）RSDS: Reduced Swing DifferentialSignal（小幅度摆动差动信号）SC（Screen Coatings，屏幕涂层）Single Ended（单终结）Shadow Mask（阴罩式）TDT（Timeing Detection Table，数据测定表）TICRG: Tungsten ImpregnatedCathode Ray Gun（钨传输阴级射线枪）TFT（thin film transistor，薄膜晶体管）UCC（Ultra Clear Coatings，超清晰涂层）VAGP: Variable Aperature GrillePitch（可变间距光栅）VBI: Vertical Blanking Interval（垂直空白间隙）VDT（Video Display Terminals，视频显示终端）VRR: Vertical Refresh Rate（垂直扫描频率）“相关拓展：菜鸟”和“大虾”菜鸟，形容一个人上网很“菜”，用来比喻网络新手，英文中的对应词是newbie；大虾，谐音自大侠，形容网络高手，英文中的对应词是knowbie，表示aknowledgeable and experiencedInternet user.值得一提的是这两组词在各自语言中都有比较一致的相关性，中文中的“菜鸟”和“大虾”戏谑成分较重，适合以文字体现，口语中广泛流传的可能性不大，而英文中的“newbie”和“knowbie”音节少，口语中发音简单易懂，拼写起来形象易记，含义上可以扩展到互联网外的其他场合，具备广泛的群众基础，已经出现在各大正式媒体中了。

WIRELESS LANIn just the past few years, wireless LANs have come to occupy a significant niche in the local area network market. Increasingly, organizations are finding that wireless LANs are an indispensable adjunct to traditional wired LANs, as they satisfy requirements for mobility, relocation, ad hoc networking, and coverage of locationsdifficult to wire. As the name suggests, a wireless LAN is one that makes use of a wireless transmission medium. Until relatively recently, wireless LANs were little used; the reasons for this included high prices, low data rates, occupational safety concerns, and licensing requirements. As these problems have been addressed, the popularity of wireless LANs has grown rapidly.In this section, we first look at the requirements for and advantages of wireless LANs, and then preview the key approaches to wireless LAN implementation.Wireless LANs ApplicationsThere are four application areas for wireless LANs: LAN extension, crossbuilding interconnect, nomadic access, and ad hoc networks. Let us consider each of these in turn.LAN ExtensionEarly wireless LAN products, introduced in the late 1980s, were marketed as substitutes for traditional wired LANs. A wireless LAN saves the cost of the installation of LAN cabling and eases the task of relocation and other modifications to network structure. However, this motivation for wireless LANs was overtaken by events. First, as awareness of the need for LAN became greater, architects designed new buildings to include extensive prewiring for data applications. Second, with advances in data transmission technology, there has been an increasing reliance on twisted pair cabling for LANs and, in particular, Category 3 unshielded twisted pair. Most older building are already wired with an abundance of Category 3 cable. Thus, the use of a wireless LAN to replace wired LANs has not happened to any great extent.However, in a number of environments, there is a role for the wireless LAN as an alternative to a wired LAN. Examples include buildings with large open areas, such as manufacturing plants, stock exchange trading floors, and warehouses; historical buildings with insufficient twisted pair and in which drilling holes for new wiring is prohibited; and small offices where installation and maintenance of wired LANs is not economical. In all of these cases, a wireless LAN provides an effective and more attractive alternative. In most of these cases, an organization will also have a wired LAN to support servers and some stationary workstations. For example, a manufacturing facility typically has an office area that is separate from the factory floor but which must be linked to it for networking purposes. Therefore, typically, a wireless LAN will be linked into a wired LAN on the same premises. Thus, this application area is referred to as LAN extension.Cross-Building InterconnectAnother use of wireless LAN technology is to connect LANs in nearby buildings, be they wired or wireless LANs. In this case, a point-to-point wireless link is used between two buildings. The devices so connected are typically bridges or routers. This single point-to-point link is not a LAN per se, but it is usual to include this application under the heading of wireless LAN.Nomadic AccessNomadic access provides a wireless link between a LAN hub and a mobile data terminal equipped with an antenna, such as a laptop computer or notepad computer. One example of the utility of such a connection is to enable an employee returning from a trip to transfer data from a personalportable computer to a server in the office. Nomadic access is also useful in an extended environment such as a campus or a business operating out of a cluster of buildings. In both of these cases, users may move around with their portable computers and may wish access to the servers on a wired LAN from various locations.Ad Hoc NetworkingAn ad hoc network is a peer-to-peer network (no centralized server) set up temporarily to meet some immediate need. For example, a group of employees, each with a laptop or palmtop computer, may convene in a conference room for a business or classroom meeting. The employees link their computers in a temporary network just for the duration of the meeting.Wireless LAN RequirementsA wireless LAN must meet the same sort of requirements typical of any LAN, including high capacity, ability to cover short distances, full connectivity among attached stations, and broadcast capability. In addition, there are a number of requirements specific to the wireless LAN environment. The following are among the most important requirements for wireless LANs: Throughput. The medium access control protocol should make as efficient use as possible of the wireless medium to maximize capacity.Number of nodes. Wireless LANs may need to support hundreds of nodes across multiple cells. Connection to backbone LAN. In most cases, interconnection with stations on a wired backbone LAN is required. For infrastructure wireless LANs, this is easily accomplished through the use of control modules that connect to both types of LANs. There may also need to be accommodation for mobile users and ad hoc wireless networks.Service area. A typical coverage area for a wireless LAN may be up to a 300 to 1000 foot diameter.Battery power consumption. Mobile workers use battery-powered workstations that need to have a long battery life when used with wireless adapters. This suggests that a MAC protocol that requires mobile nodes to constantlymonitor access points or to engage in frequent handshakes with a base stationis inappropriate.Transmission robustness and security. Unless properly designed, a wireless LAN may be interference-prone and easily eavesdropped upon. The design of a wireless LAN must permit reliable transmission even in a noisy environment and should provide some level of security from eavesdropping.Collocated network operation. As wireless LANs become more popular, it is quite likely for two of them to operate in the same area or in some area where interference between the LANs is possible. Such interference may thwart the normal operation of a MAC algorithm and may allow unauthorized access to a particular LAN.License-free operation. Users would prefer to buy and operate wireless LAN products without having to secure a license for the frequency band used by the LAN.HandoWroaming. The MAC protocol used in the wireless LAN should enable mobile stations to move from one cell to another.Dynamic configuration. The MAC addressing and network management aspects of the LAN should permit dynamic and automated addition, deletion, and relocation of end systems without disruption to other users.Physical Medium SpecificationThree physical media are defined in the current 802.11 standard:Infrared at 1 Mbps and 2 Mbps operating at a wavelength between 850 and 950 nm.Direct-sequence spread spectrum operating in the 2.4-GHz ISM band. Up to 7 channels, each with a data rate of 1 Mbps or 2 Mbps, can be used.Frequency-hopping spread spectrum operating in the 2.4-GHz ISM band. The details of this option are for further study.Wireless LAN TechnologyWireless LANs are generally categorized according to the transmission techniquethat is used. All current wireless LAN products fall into one of the following categories:Infrared (IR) LANs. An individual cell of an IR LAN is limited to a single room, as infrared light does not penetrate opaque walls.Spread Spectrum LANs. This type of LAN makes use of spread spectrum transmission technology. In most cases, these LANs operate in the ISM (Industrial, Scientific, and Medical) bands, so that no FCC licensing is required for their use in the U.S.Narrowband Microwave. These LANs operate at microwave frequencies but do not use spread spectrum. Some of these products operate at frequencies that require FCC licensing, while others use one of the unlicensed ISM bands.A set of wireless LAN standards has been developed by the IEEE 802.11 committee. The terminology and some of the specific features of 802.11 are unique to this standard and are not reflected in all commercial products. However, it is useful to be familiar with the standard as its features are representative of required wireless LAN capabilities.The smallest building block of a wireless LAN is a basic service set (BSS), which consists of some number of stations executing the same MAC protocol and competing for access to the same shared medium. A basic service set may be isolated, or it may connect to a backbone distribution system through an access point. The access point functions as a bridge. The MAC protocol may be fully distributed or controlled by a central coordination function housed in the access point. The basic service set generally corresponds to what is referred to as a cell in the literature. An extended service set (ESS) consists of two or more basic service sets interconnected by a distribution system. Typically, the distribution system is a wired backbone LAN. The extended service set appears as a single logical LAN to the logical link control (LLC) level. The standard defines three types of stations, based on mobility:No-transition. A station of this type is either stationary or moves only within the direct communication range of the communicating stations of a single BSS.BSS-transition. This is defined as a station movement from one BSS to another BSS within the same ESS. In this case, delivery of data to the station requires that the addressing capability be able to recognize the new location of the station.ESS-transition. This is defined as a station movement from a BSS in one ESS to a BSS within another ESS. This case is supported only in the sense that the station can move. Maintenance of upper-layer connections supported by 802.11 cannot be guaranteed. In fact, disruption of service is likely to occur. details of this option are for further study.The 802.11 working group considered two types of proposals for a MAC algorithm: distributed-access protocols which, like CSMAICD, distributed the decision to transmit over all the nodes using a carrier-sense mechanism; and centralized access protocols, which involve regulation of transmission by a centralized decision maker. A distributed access protocol makes sense of an ad hoc network of peer workstations and may also be attractive in other wireless LANconfigurations that consist primarily of bursty traffic. A centralized access protocol is natural for configurations in which a number of wireless stations are interconnected with each other and with some sort of base station that attaches to a backbone wired LAN; it is especially useful if some of the data is time-sensitive or high priority.The end result of the 802.11 is a MAC algorithm called DFWMAC (distributed foundation wireless MAC) that provides a distributed access-control mechanism with an optional centralized control built on top of that. Figure 13.20 illustrates the architecture. The lower sublayer of the MAC layer is the distributed coordination function (DCF). DCF uses a contention algorithm to provide access to all traffic. Ordinary asynchronous traffic directly uses DCF. The point coordination function (PCF) is a centralized MAC algorithm used to provide contention-free service. PCF is built on top of DCF and exploits features of DCF to assure access for its users. Let us consider these two sublayers in turn.Distributed Coordination FunctionThe DCF sublayer makes use of a simple CSMA algorithm. If a station has a MAC frame to transmit, it listens to the medium. If the medium is idle, the station may transmit; otherwise, the station must wait until the current transmission is complete before transmitting. The DCF does not include a collision-detection function (i.e., CSMAICD) because collision detection is not practical on a wireless network. The dynamic range of the signals on the medium is very large, so that a transmitting station cannot effectively distinguish incoming weak signals from noise and the effects of its own transmission. To ensure the smooth and fair functioning of this algorithm, DCF includes a set of delays that amounts to a priority scheme. Let us start by considering a single delay known as an interframe space (IFS). In fact, there are three different IFS values, but the algorithm is best explained by initially ignoring this detail. Using an IFS, the rules for CSMA access are as follows:I. A station with a frame to transmit senses the medium. If the medium is idle, the station waits to see if the medium remains idle for a time equal to IFS, and, if this is so, the station may immediately transmit.2. If the medium is busy (either because the station initially finds the medium busy or because the medium becomes busy during the IFS idle time), the station defers transmission and continues to monitor the medium until the current transmission is over.3. Once the current transmission is over, the station delays another IFS. If the medium remains idle for this period, then the station backs off using a binary exponential backoff scheme and again senses the medium. If the medium is still idle, the station may transmit.Point Coordination FunctionPCF is an alternative access method implemented on top of the DCF. The operation consists of polling with the centralized polling master (point coordinator). The point coordinator makes use of PIFS when issuing polls. Because PIFS is smaller than DIFS, the point coordinator can seize the medium and lock out all asynchronous traffic while it issues polls and receives responses.As an extreme, consider the following possible scenario. A wireless network is configured so that a number of stations with time-sensitive traffic are controlled by the point coordinator while remaining traffic, using CSMA, contends for access.The point coordinator could issue polls in a round-robin fashion to all stations configured for polling. When a poll is issued, the polled station may respond using SIFS. If the point coordinator receives a response, it issues another poll using PIFS. If no response is received during theexpected turnaround time, the coordinator issues a poll. If the discipline of the preceding paragraph were implemented, the point coordinator would lock out all asynchronous traffic by repeatedly issuing polls. To prevent this situation, an interval known as the superframe is defined. During the first part of this interval, the point coordinator issues polls in a round-robin fashion to all stations configured for polling. The point coordinator then idles for the remainder of the superframe, allowing a contention period for asynchronous access.At the beginning of a superframe, the point coordinator may optionally seize control and issue polls fora give period of time. This interval varies because of the variable frame size issued by responding stations. The remainder of the superframe is available for contention-based access. At the end of the superframe interval, the point coordinator contends for access to the medium using PIFS. If the medium is idle, the point coordinator gains immediate access, and a full superframe period follows. However, the medium may be busy at the end of a superframe. In this case, the point coordinator must wait until the medium is idle to gain access; this results in a foreshortened superframe period for the next cycle.无线局域网技术最近几年，无线局域网开始在市场中独霸一方。

计算机网络中英翻译ACK (ACKnowledgement) 确认帧ADSL (Asymmetric Digital Subscriber Line) 非对称数字用户线AN (Access Network ）接入网ANSI (American National Standards Institute) 美国国家标准协会AP (Access Point) 接入点API (Application Programming Interface) 应用编程接口APNIC (Asia Pacific Network Information Center) 亚太网络信息中心ARP （ Address Resolution Protocol ）地址解析协议ARPA (Advanced Research Project Agency)美国国防部远景研究规划局（高级研究计划署）ARQ (Automatic Repeat reQuest) 自动请求重发ATM (Asynchronous Transfer Mode) 异步传递方式ATU (Access Termination Unit) 接入端接单元ATU-C (Access Termination Unit Central Office ）端局接入端接单元ATU-R (Access Termination Unit Remote) 远端接入端接单元AUI (Attachment Unit Interface ）连接接口单元AWT （ Abstract Window Toolkit ）抽象窗口工具箱BECN (Backward Explicit Congestion Notification) 反向显式拥塞通知BER (Basic Encoding Rule) 基本编码规则BGP (Border Gateway Protocol) 边界网关协议BSA (Basic Service Area) 基本服务区BSS (Basic Service Set) 基本服务集BNA 宝来网络体系结构CAC (Connection Admission Control) 连接准许控制CAP (Carrierless Amplitude Phase) 无载波振幅相位调制CATV (Community Antenna TV, CAble TV) 有线电视CBR （ Constant Bit Rate ）恒定比特率CCIR (Consultative Committee，International Radio) 国际无线电咨询委员会CCITT (Consultative Committee, International Telegraph and Telephone)国际电报电话咨询委员会CCP 通信控制处理机CDM (Code Division Multiplexing) 码分复用CDMA (Code Division Multiplex Access) 码分多址CNNIC (Network Information Center of China) 中国互联网络信息中心CRC (Cyclic Redundancy Check) 循环冗余检验CSMA/CD (Carrier Sense Multiple Access ／ Collision Detection)载波监听多点接入/碰撞检测CSU/DSU （ Channel Service Unit/Data Service Unit) 信道服务单元／数据服务单元CTD (Cell Transfer Delay) 信元传送时延DACS (Digital Access and Cross-connect System) 数字交接系统DCA 数据通信体系结构DCE (Data Circuit-terminating Equipment) 数据电路端接设备DE (Discard Eligibility) 丢弃指示DES (Data Encryption Standard) 数据加密标准DHCP (Dynamic Host Configuration Protocol) 动态主机配置协议DLCI (Data Link Connection Identifier) 数据链路连接标识符DMT (Discrete Multi-Tone) 离散多音（调制）DNS (Domain Name System) 域名系统DNA 数据网络系统结构DSL (Digital Subscriber Line) 数字用户线DSLAM (DSL Access Multiplexer) 数字用户线接入复用器DSSS (Direct Sequence Spread Spectrum) 直接序列扩频DTE (Data Terminal Equipment) 数据终端设备DVMRP (Distance Vector Multicast Routing Protocol) 距离向量多播路由选择协议DWDM (Dense WDM) 密集波分复用EGP (External Gateway Protocol) 外部网关协议EIA (Electronic Industries Association ）美国电子工业协会ESP (Encapsulating Security Payload) 封装安全有效载荷ESS 伍 xtended Service Set) 扩展的服务集FCS (Frame Check Sequence) 帧检验序列FDDI (Fiber Distributed Data Interface ）光纤分布式数据接口FDM (Frequency Division Multiplexing) 频分复用FEC (Forwarding Equivalence Class) 转发等价类FEC (Forward Error Correction) 前向纠错FHSS (Frequency Hopping Spread Spectrum) 跳频扩频FIFO （ First In First Out) 先进先出FQ (Fair Queuing) 公平排队FR (Frame Relay) 帧中继FSK (Frequency Shift Keying) 移频键控FTP (File Transfer Protocol ）文件传送协议FTTB (Fiber To The Building) 光纤到大楼FTTC (Fiber To The Curb ）光纤到路边FTTH (Fiber To The Home) 光纤到家FTTD (Fiber To The Desk) 光纤到桌面FTTZ(Fiber To The Zone ）光纤到小区FTTO (Fiber To The Office) 光纤到办公室FTTF (Fiber To The Floor) 光纤到楼层GIF (Graphics Interchange Format) 图形交换格式GII (Global Information Infrastructure) 全球信息基础结构，全球信息基础设施GFC （ Generic Flow Control) 通用流量控制GSM (Group Special Mobile) 群组专用移动通信体制HDLC (High-level Data Link Control) 面向比特的链路控制规程HDSL (High speed DSL) 高速数字用户线HEC (Header Error Control) 首部差错控制HFC (Hybrid Fiber Coax) 光纤同轴混合（网）HTML (HyperText Markup Language) 超文本置标语言HTTP (HyperText Transfer Protocol) 超文本传送协议IAB (Internet Architecture Board) 因特网体系结构委员会IAC （ Interpret As Command ）作为命令解释IAHC (Internet International Ad Hoc Committee ）因特网国际特别委员会ICMP （ Internet Control Message Protocol ）因特网控制报文协议IDEA (International Data Encryption Algorithm) 国际数据加密算法IEEE电气和电子工程师协会IESG (Internet Engineering Steering Group) 因特网工程指导小组IETF (Internet Engineering Task Force) 因特网工程部IFS (Inter Frame Space) 帧间间隔IGMP (Internet Group Management Protocol) 因特网组管理协议IGP (Interior Gateway Protocol) 内部网关协议IM (Instant Messaging) 即时传信IMAP (Internet Message Access Protocol) 因特网报文存取协议IMP （ Interface Message Processor) 接口报文处理机IP (Internet Protocol ）网际协议IR (InfraRed ）红外技术IRTF （ Internet Research Task Force ）因特网研究部ISDN (Integrated Services Digital Network) 综合业务数字网ISO （ International Organization for Standardization ）国际标准化组织ISOC (Internet Society) 因特网协会ISP （ Internet Service Provider) 因特网服务提供者ITU （ International Telecommunication Union ）国际电信联盟ITU-T （ ITU Telecommunication Standardization Sector) 国际电信联盟电信标准化部门JPEG (Joint Photographic Expert Group) 联合图像专家组标准KDC (Key Distribution Center) 密钥分配中心LAN (Local Area Network ）局域网LANE (LAN Emulation ）局域网仿真LAPB (Link Access Procedure Balanced) 链路接入规程（平衡型）LCP (Link Control Protocol) 链路控制协议LDP (Label Distribution Protocol) 标记分配协议LLC (Logical Link Control) 逻辑链路控制LSP (Label Switched Path) 标记交换路径LSR (Label Switching Router) 标记交换路由器MAC (Medium Access Control) 媒体接入控制MAN (Metropolitan Area Network) 城域网MAU (Medium Attachment Unit) 媒体连接单元MBONE (Multicast Backbone On the InterNEt ）多播主干网MBS (Maximum Burst Size ）最大突发长度MCR (Minimum Cell Rate ）最小信元速率 MCU (Multipoint Control Unit)多点控制单元MD (Message Digest) 报文摘要MDI (Medium Dependent Interface ）媒体相关接口MIB (Management Information Base) 管理信息库MIME (Multipurpose Internet Mail Extensions) 通用因特网邮件扩充location Vector) 网络分配向量NCP (Network Control Protocol) 网络控制协议NFS (Network File System) 网络文件系统NGI 下一代因特网计划NIA 网络适配器NIC (Network Interface Card) 网络接口卡、网卡NII (National Information Infrastructure) 国家信息基础结构，国家信息基础设施NLRI (Network Layer Reachability Information) 网络层可达性信息NNI (Network-Node Interface) 网络结点接口NSF (National Science Foundation) （美国）国家科学基金会NVT (Network Virtual Terminal ）网络虚拟终端ODBC （Open Database Connection）开放数据库互连OSF （Open Software Fundation ）开放软件基金会OSI （Open System Interconnection ）开放系统互联PBX （Private Branch eXchange ）用户交换机PCM (Pulse Code Modulation ) 脉冲编码调制PCN (Personal Communications Network ) 个人通信网络PCR （Peak Cell Rate ）峰值信元速率PCS 个人通信服务 Personal Communications ServicePDH 准同步数字系列PDA 个人数字助理 Personal Digital AssistantPDN 公用数据网 Public Data NetworkPDU 协议数据单元 Protocol Data UnitPER 分组差错率 packet error ratePIR 分组插入率 packet insertion ratePLCP 物理层会聚协议 Physical Layer Convergence ProtocolPLR 分组丢失率 packet loss ratePMD 物理媒体相关（子层） Physical Medium DependentPPP 点到点协议 Point to Point ProtocolPPTP 点对点隧道协议PRM 协议参考模型 Protocol Reference ModelPRN 分组无线网 Packet Radio NetworkPSN 分组交换节点 Packet Switch NodePSTN 公用电话交换网 Public Switched Telephone NetworkRARP 逆向地址解析协议 Reverse Address Resolution ProtocolRAS 远程访问服务器RFC 请求评注 Request for CommentsRMON 远程网络管理Router 路由器RPC 远程过程调用 Remote Procedure CallRSVP 资源重复利用协议RTP 接收和发送端口RTS 往返样本 Round Trip SampleRTS 剩余时间标签SAP 业务接入点 Service Access PointSAP 服务公告协议 Service Advertising ProtocolSAR 分段和重组(子层) Segmentation and ReassemblySDH 同步数字系列 Synchronous Digital HierarchySDLC 同步数据链路控制(协议) Advanced Data Communication Control ProcedureSDTV 标准数字电视SDU 业务数据单元 Service Data UnitSIPP 增强的简单因特网协议 Simple Internet Protocol PlusSLIP 串行线路IP Serial Line Interface ProtocolSMDS 交换式多兆比特数据业务 Switched Multimegabit Data Services SMF 单模光纤 Single-mode FiberSMT 站点管理 Station ManagementSMTP 简单邮件传输协议 Simple Mail Transfer ProtocolSNA 系统网络体系结构 System Network ArchitectureSNMP 简单网络管理协议 Simple Network Management ProtocolSNR 信噪比 Signal-Noise ratioSONET 同步光纤网络 Synchronous Optical NetworkSTM 同步传输方式 Synchronous Transfer ModeSTP 屏蔽双绞线 Shielded Twisted PairSTS 同步传输信号 Synchronous Transport SignalSVC 交换虚电路 Switched Virtual CircuitSwitch 交换机TCP 传输控制协议 Transmission Control ProtocolTDM 时分多路复用 Time Division MultiplexingTFTP 单纯文件传输协议 Trivial File Transfer protocolTelnet 远程登录协议TIP 终端接口处理机 Terminal Interface ProcessorTP 双绞线 Twisted PairTSAP 传输层服务访问点 Transport Service Access PointUDP 用户数据报协议 User Datagram ProtocolUSB 通用串行总线 Universal Serial BusUTP 非屏蔽双绞线 Unshielded Twisted PairVAN 增值网 Value Added NetworkVBR 可变比特率 Variable Bit RateVCC 虚信道连接 Virtual Channel ConnectionVLAN 虚拟局域网 Virtual LANVLSI 超大规模集成电路VOD 点播图像 Video on DemandVPC 虚路径连接 Virtual Path ConnectionVPI 虚路径标识 virtual path identifierVPN 虚拟专用网络 Virtual Private NetworkVRML 虚拟现实造型语言 Virtual Reality Modeling LanguageVTP 虚拟隧道协议WAN 广域网 Wide Area NetworkWDM 波分多路复用 Wavelength Division MultiplexingWWW 万维网 World Wide Web。

计算机网络技术专用英语计算机网络技术是现代信息技术领域的重要组成部分，它涉及到大量的专业术语和概念。

掌握这些专业英语词汇对于学习和工作在这一领域的专业人士来说至关重要。

以下是一些计算机网络技术中常见的专用英语词汇及其解释。

1. Network - 网络，指连接多个计算机或设备的系统，以实现数据的传输和共享。

2. Protocol - 协议，是一组规则和标准，用于定义电子设备之间如何进行通信。

3. IP Address - IP地址，是分配给网络中每个设备的唯一标识符。

4. Router - 路由器，是一种网络设备，用于在多个网络之间转发数据包。

5. Switch - 交换机，是一种网络设备，用于连接多个设备并转发数据包。

6. Hub - 集线器，是一种简单的网络设备，用于连接多个设备，但不具备交换机的智能转发功能。

7. Firewall - 防火墙，是一种安全设备或软件，用于监控和控制进出网络的数据流。

8. Bandwidth - 带宽，指网络传输数据的能力，通常以比特每秒（bps）来衡量。

9. LAN (Local Area Network) - 局域网，是覆盖较小地理区域的计算机网络，如一个办公室或学校。

10. WAN (Wide Area Network) - 广域网，是连接不同地理位置的计算机网络。

11. VPN (Virtual Private Network) - 虚拟私人网络，是一种技术，允许用户通过公共网络安全地访问私有网络。

12. TCP/IP (Transmission Control Protocol/Internet Protocol)- 传输控制协议/互联网协议，是互联网通信的基础协议。

13. HTTP (Hypertext Transfer Protocol) - 超文本传输协议，是用于从网络传输超文本到本地浏览器的协议。

14. HTTPS (Hypertext Transfer Protocol Secure) - 安全超文本传输协议，是HTTP的安全版本，使用SSL/TLS来加密数据。

LAN局域网基础 LAN是什么意思局域网可以实现文件管理、应用软件共享、打印机共享、扫描仪共享、工作组内的日程安排、电子邮件和传真通信服务等功能。

这篇文章主要介绍了LAN是什么意思?LAN局域网基础知识介绍,LAN是Local Area Network的简称，中文名称：局域网,本文详细讲解了它的基础知识,需要的朋友可以参考下方法步骤LAN是Local Area Network的简称，中文名称：局域网。

从功能上来讲，由一台以上的路由器或者交换机，与多台计算机联网组成的网络，或者直接两台或者两台以上的计算机组成的网络。

局域网可以实现文件管理、应用软件共享、打印机共享、工作组内的日程安排、电子邮件和传真通信服务等功能。

LAN(局域网)从地理范围上来讲，指的是一个局域(较小)的地理范围内，一般是方圆几千米以内，将各种计算机，外部设备和数据库等互相联接起来组成的计算机通信网。

例如：办公室、学校、事业单位等场所里面的计算机通信网络。

它可以通过数据通信网或专用数据电路，与远方的局域网、数据库或处理中心相连接，构成一个较大范围的信息处理系统。

局域网可以实现文件管理、应用软件共享、打印机共享、扫描仪共享、工作组内的日程安排、电子邮件和传真通信服务等功能。

局域网严格意义上是封闭型的。

它可以由办公室内几台甚至上千上万台计算机组成。

决定局域网的主要技术要素为：网络拓扑，传输介质与介质访问控制方法。

LAN局域网LAN(局域网)由网络硬件(包括网络服务器、网络工作站、网络打印机、网卡、网络互联设备等)和网络传输介质，以及网络软件。

对于我们普通用户使用的家用无线路由器，下面连接了手机、笔记本、台式电脑，实际上也是一个小型的局域网了。

LAN(局域网)的特点：1、覆盖的地理范围较小，只在一个相对独立的局部范围内联，如一座或集中的建筑群内。

2、使用专门铺设的传输介质进行联网，数据传输速率高(10Mb/s～10Gb/s)。

3、通信延迟时间短，可靠性较高。

nat技术在局域网中的应用随着网络技术的不断发展，局域网（Local Area Network，LAN）成为了现代办公和生活中不可或缺的一部分。

为了更好地满足人们对网络的需求，网络地址转换（Network Address Translation，NAT）技术应运而生，并在局域网中得到广泛的应用。

本文将从NAT技术的定义、原理和局域网中的具体应用等方面进行阐述。

一、NAT技术简介网络地址转换（NAT）是一种将一个网络地址空间映射为另一个网络地址空间的技术，用于解决IPv4地址不足的问题。

在传统的IPv4网络中，每个设备都需要拥有一个唯一的公网IP地址，然而随着IP地址资源的日益枯竭，NAT技术应运而生。

NAT技术的基本原理是将局域网中的私有IP地址转换为公网IP地址，并在网络传输的过程中完成私有地址与公网地址之间的映射。

NAT设备负责将局域网中的请求封装成公网IP地址，然后将在公网中的响应数据再转发给对应的内部IP地址。

通过这种方式，NAT技术实现了一种多对多的IP地址映射机制，从而节省了公网IP地址的使用。

二、NAT在局域网中的应用1. 节约公网IP地址资源在大多数的办公场所和家庭网络中，通常只会分配一个公网IP地址，然而家中或者办公室中的设备却很多。

这时，就可以通过NAT技术将局域网内的多个私有IP地址映射为同一个公网IP地址，从而节约了公网IP地址资源。

2. 提高网络安全性通过NAT技术，局域网内部的设备对于外部网络来说是不可见的，外部网络无法直接访问到局域网中的设备。

只有当局域网内的设备主动发送请求时，NAT设备才会进行地址转换将内部私有地址转换为公网地址，这种机制在一定程度上提高了网络的安全性。

3. 建立虚拟专线在一些需要建立跨局域网连接的场景中，NAT技术可以实现虚拟专线的功能。

通过将多个局域网的私有地址映射为相同的公网地址，并且通过特定的端口号进行区分，可以实现不同局域网之间的互通。