当按住鼠标左键拖动节点时移动节点。
无线多跳网是一种由移动节点组建的自组织网络。
Wireless multihop network is the self-organized network architecture, which is composed of mobile nodes.
无线网络是一种在其中存在移动节点的通信网络。
The mobile wireless network is a network in which there are mobile nodes.
无线多跳网是一种由移动节点组建的自组织网络。
Under such circumstance, wireless multi-hop Mesh networks appear as a new technique.
移动通信系统,路由器,移动节点和移动通信方法。
Mobile communication system, router, mobile node, and mobile communication method.
在SCTP中,多归位功能,使移动节点到网络之间的无缝交接。
In SCTP, the multi-homing feature enables the mobile node to handover seamlessly between networks.
当向下移动节点树时,每个父节点的DN被包含在其子节点的DN中。
As you move down the tree of nodes, the DN of each parent nodes is included in the DN of its child nodes.
移动节点使用其中的一个频率作为中继来实现它和SBS2之间的初始通信。
One of its frequencies is used by the MN as a relay to implement its initial communication with SBS2.
本文提出了用自适应距离过滤来有效减少移动节点和网格代理之间的通信机制。
Therefore, this thesis proposes an adaptive distance filter that can effectively reduce communication traffic between the mobile grid node and grid broker.
移动自组网是一种新型的由移动节点为了某种特定目的而彼此进行连结的网络。
Mobile Ah Hoc networks is a new paradigm of wireless mobile networks temporarily formed by each-connected nodes for some special purpose.
自组网是由兼做路由器的移动节点组成的移动无线网络,不依靠通信基础设施。
Mobile Ad Hoc Network( MANET) is a type of mobile wireless networks composed of many mobile nodes. Each node is a router as well asa communication end-point.
主要着眼于在MANET网络中保护移动节点间的多跳网络连接这个基本安全问题。
In this paper we focus on the fundamental security problem of protecting the multihop network connectivity between mobile nodes in a MANET.
如何将这两者结合起来,为移动节点提供有效的组播支持,已经引起了很多人的兴趣。
How to integrate the two together to provide effectual multicast support to mobile nodes has attracted the interests of many people.
能源问题对于移动自组网是非常重要的,因为移动节点只能依靠它们有限的电池供应。
Energy problem is very important for routing protocol in mobile ad hoc networks since these mobile nodes must rely on their limited battery supply.
移动节点,路由器,服务器和根据IP版本6 (IPV6)协议的移动通信的方法。
Mobile node, router, server and method for mobile communications under IPV6 protocol.
移动节点在紧密耦合的小蜂窝基站间频繁切换时会增加网络负载并加重数据包的丢失。
Second, the frequent handoffs between cellular base stations would aggravate network traffic overhead and cause in-flight packets loss during handoff.
它提供了一种ip路由机制,使移动节点可以以一个永久的IP地址连接到任何链路上。
It provides a kind IP route mechanism that makes mobile node connect to any links with a permanent IP address.
该机制根据移动节点相关预测信息自动生成动态策略,在切换前作准入控制和资源准备。
On the basis of the prediction information of the mobile node, the mechanism produced dynamic policies automatically to do admission control and prepared resources for handoff before it happened.
如何准确地获得未知移动节点的位置信息是普适计算环境下定位服务要解决的关键问题。
How to obtain location information of an unknown node precisely is a key problem of locating service under ubiquitous computing environment.
如何实现移动节点在子网间快速、平滑的切换,即无缝切换,是移动计算的一个重要问题。
How to realize fast and smooth handoff of mobile node between subnets, i. e. seamless handoff, is a key problem of mobile computing.
而这些移动节点一般仅拥有有限的资源,比如有限的电力、带宽、存储空间、计算资源等等。
These mobile nodes generally have only limited resources, such as limited power, limited bandwidth, limited storage space, limited computing resources and so on.
根据原移动IP协议,移动节点每次变换了转交地址,都必须向家乡代理和通信对端重新绑定。
According to original mobile IP protocol, each time mobile node changes its Foreign Agent, it must register to its Home Agent and correspondent node again.
IETF提出的SIP协议以其灵活、容易部署等特性较好地解决了移动节点的全局移动性问题。
The Session Initiation Protocol (SIP) introduced by IETF has flexible and easy deployment features to solve the MN's global mobility problem.
着重于开发一种以常规线性单元为基底,附加中间移动节点而构成的新型高精度的复合有限单元方法。
This paper focuses on developing a new high precision finite element method by combining ordinary linear element and mobile node.
仿真结果表明,ATLMM不仅为移动节点提供了自适应的协议选择,而且降低了总体的域外注册开销。
Simulation results showed that ATLMM not only provided adaptive protocol selection for mobile nodes, but also decreased the overall inter-domain registration cost.
针对乒乓移动问题,引入过渡期的概念,过渡期内移动节点同新子网连接稳定才可以确认到达新子网;
In the transition period, the mobile node cannot affirm its attachment to the new subnet until it connects to the new subnet stably.
实验床中的各移动节点都运行按需单播路由协议与多播路由协议,并可通过基站系统与有线骨干网连接。
Each node runs both the unicast routing protocol and the multicast routing protocols on a dynamic on demand basis, and interfaces seamlessly with the existing Internet infrastructure.
该方案实现了认证和注册过程的一体化,并且实现了移动节点、外地代理和家乡代理三个实体间的密钥分配。
The scheme realizes the incorporation of authentication and registration. Key distribution among mobile node, foreign agent and home agent is also achieved in the scheme.
它不依赖于任何固定的基础设施,而是通过移动节点间的相互协作、自我组织,来实现网络连接和数据传递。
It does not depend on any fixed infrastructure to achieve network connectivity and data transfer, but through the mobile nodes 'collaboration and self-organization.
反向隧道是由移动节点(MH)到其家乡代理(HA)的隧道,始于移动节点的转交地址,终止于家乡代理。
Reverse tunnel is the tunnel between the mobile host (MH) and its home agent (ha), it begins from the care of address of the MH, and ends in that of the ha.
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