点对点网络

但是，更重要的是WebSphereMQ集群没有取代点对点网络。

But , more importantly , the WebSphere MQ cluster does not displace the point-to-point network .

它们之间的主要区别是在点对点网络中，队列消息从原点到达一个目标点。

The primary distinction between them is that in a point-to-point network , queued messages travel from a point of origin to a single destination .

Windows点对点网络主要用于协作场景。

Windows peer-to-peer networking is mainly used for collaboration scenarios .

点对点网络（P2P）指网络用户之间可以直接通信的网络结构。

Peer-to-peer ( P2P ) network is a network structure where users can communicate with each other directly .

当WebSphereMQ引入集群的概念时，新词点对点网络被用于区分集群和一般的MQ网络拓扑。

When clustering was introduced to WebSphere MQ , the retronym point-to-point network was used to differentiate between a cluster and the classic MQ network topology .

通用即插即用（UPnP）是一种普遍的点对点网络连接的体系结构，它适用于智能设备、无线设备和所有种类的个人计算机的互连。

Universal Plug and Play is an architecture for pervasive peer-to-peer network connectivity of intelligent appliances , wireless devices , and PCs of all form factors .

点对点网络具有动态、自主和离散的特点。

P2P network is dynamic , independent and discrete .

点对点网络容错路由算法的路径长度分析

Probabilistic Study on Node-to-Node Network Routing Path Length

测试结果表明，由该网络接口卡组成点对点网络，其单向传输延时为4.22！

According to the experiment results , the unidirectional latency of the " point-to-point " network constructed by this NIC is 4.22 μ s ;

这些特点使得点对点网络的安全解决方案面临新的挑战，一些传统的安全机制不再适用于点对点网络。

These features make the security solutions of P2P network confronted with new challenges . Some traditional security solutions are not adapted to P2P network .

由于这些原因，SOA的采用正在推动从点对点消息网络到集群环境的迁移。

For these reasons , adoption of SOA is driving migrations from point-to-point messaging networks to clustered environments .

无线网状网是一种高速率、高容量的多点对多点网络，可把它看成是adhoc网络的简化版本。

Wireless Mesh network is a high-rate and high-capability network , we can consider it as the simple edition of Ad hoc network .

无线Mesh网是一种高速率、高容量的多点对多点网络，由于具有不需要集中式的网络管理和基础设施等显著特点，无线Mesh网在近年来受到越来越多的关注。

Wireless Mesh network is a high-rate , high-capability and multi-point to multi-point network . Wireless Mesh network is received more and more attention due to their characters of no network administration and infrastructure .

无线Mesh网络是一种高速率、高容量的多点对多点网络，是一种新型的解决最后一英里问题的分布式网络，可把它看成是adhoc网络的简化版本。

Wireless Mesh network is a high-rate and high-capability network , it is a new type of distributed network solved " the last mile " and we can consider it as the simple edition of Ad hoc network .

近年来，密集波分复用（densewavelengthdivisionmultiplexer，DWDM）技术在点对点核心网络受到越来越多的关注，它以全新的方式，在现有光纤通信系统的基础上极大地扩大了容量。

Recently , dense wavelength division multiplexer ( DWDM ) technique has attracted more and more attention in point-to-point core networks , it immensely increases the message capacity on the basis of existing optical fiber communication system .

总的来说这是点对点和网络的天性。

This is the nature of peer-to-peer and networking in general .

本文在分析了软件无线电技术对信号处理方式的改进后，给出了一个基于串化解串器的点对点通信网络的实现方法。

This dissertation makes a point-to-point network based on SerDes after analyzing the improvement of signal processing in Software Radio .

在两方间开文档会议十分简单：点对点的网络连接就将两个地点联系在一起了，会议便可开始进行。

Document conferencing between two parties is quite simple : a point-to-point network connection links the two sites and the conference gets under way .

他是一种极其简单的点对点的网络服务，使用者可以简单的再晚上通过古老的路由器呼叫其它人，交换信息。

It was a simple peer-to-peer network where users'computers would just call each other at night through their old-fashioned modems , exchange information and then move on .

由于对高吞吐量、低功耗和大覆盖范围的追求，中继网络架构有取代传统点对多点网络架构的趋势。

Due to the pursuit of high-throughput , low power and coverage , it is a trend for the relay network structure to replace the traditional point to multi-point network architecture .

P2P（Peer-to-Peer）网络采用点对点分散式网络架构，它不需要服务器的中转。

P2P ( Peer-to-Peer ) uses point-to-point network construction , which does not need the transfer of servers .

着重介绍了实时多任务的设计流程，设计实现了ISA总线方式的数据通信和单点对多点的网络通信模式。

The software flow of the real time multiple tasks working and analyses how to use ISA and how to communicate from one point to multiple point also are provided .

P2P意为点对点式对等网络，它有别于目前处于主流地位的C/S（客户机/服务器）网络模式，是近年来互联网上涌现出的一种新型网络传输技术。

P2P is actually Peer-to-Peer Network as distinguished from C / S ( Client / Server ) network mode in the mainstream status , which is the emergence of a new Internet network transmission technology in recent years .

在点对点（P2P）网络中，由于不存在可信中心，实体间的信任关系无法使用传统方式建立。

In peer-to-peer ( P2P ) networks , there are not trusted authorities , Trust relations between peers cannot be establish with traditional methods .

P2P网络利用点对点技术，使得网络中各节点之间可以直接共享、检索和访问各种资源，为用户提供了方便的交流平台。

P2P network which uses point to point technology , makes directly share , retrieve and visit various resources among nodes in the network , and offers convenience platform for users .

实现了一个数字图像信号的点对点（P2P）网络传输系统，测试结果表明该系统传输速度快，传输正确率高，很适合于混沌加密后数字图像的传输。

Developing a digital image P2P transmission system , and the test results prove that this system is adaptive to the encrypted digital image transmission since it provides higher transmission speed and less error ;

移动adhoc网络（MANETs）和点对点（P2P）网络都有共同特征：分布性和自组织性，通常被称为自治网络。

Ad Hoc Networks ( MANETs ) and peer to peer ( P2P ) networks have common characteristics : distributed and self-organization , they are often referred to as self-organizing network .

点对点（P2P）网络系统作为因特网的一个组成部分，被广泛应用于文件传输、文件共享、分布式计算、基于IP的语音通信等多种场合。

Peer-to-peer ( P2P ) systems which exist at the edge of the Internet have been widely applied in various applications , i.e. , file transfer , file sharing , distributed computing , and voice over IP communications .

本文论述了OT-DM的主要技术及其应用前景，通过对OTDM技术在点对点通信系统和网络系统中的应用介绍，提出了OTDM和WDM的结合是将来网络发展的方向。

Having described the using of OTDM technology on point to point telecommunication system and network system , suggest that the combination of OTDM and WDM is trend of future network .

然后根据点对多点拓扑结构网络与IEEE802.1D网桥相连时存在的不兼容问题，并结合几项EPON关键技术的分析提出本文的重点：EPON系统局域网仿真的研究与实现。

We also analyse the incompatibility between the point to multipoint topology of EPON and the IEEE 802.1 bridges . By combining several key technologies of EPON , the keystone of this article is raised which is the research and design of LAN emulation function in an EPON system .