Broadcast is an important operation in mobile AD hoc network.
广播是移动自组网中重要的操作。
Many mobile AD hoc network applications depend upon the hierarchical structure.
在移动自组网络中,许多应用都依赖层次结构的支持。
Nodes in the same Mobile Ad Hoc network are peer to each other and have flexible mobility.
网络搭建方便,不需要基础设施,并且网络节点地位对等,可以自由移动。
The Wireless Mobile Ad hoc Network (WMANET) is a special wireless mobile communication network.
无线移动自组网是一种特殊的无线移动通信网络。
Network layer security is one of the fundamental aspects of security in mobile ad hoc networks.
网络层安全是移动自组网安全的一个基本方面。
The common clustering algorithms in mobile Ad Hoc network (MANET) are firstly analyzed in this paper.
分析了几种常见分簇算法,在此基础上提出了一种新的基于移动代理的分簇策略。
In the Mobile Ad hoc network (MANET), the efficiency multicast route is one of hot-study for the network multicast routers.
高效的组播路由是移动自组网网络组播路由的研究热点之一。
The mobile ad hoc network (MANET) is a temporary network that fixed basic station and centralized management is not needed.
网络是在没有任何现存网络基础设施或是集中管理的情况下动态形成的暂时性网络。
Combined public key and threshold cryptography are applied to key management for Mobile Ad Hoc Network (MANET) in this paper.
将组合公钥技术和门限密码理论结合应用于移动自组网的密钥管理方案中。
Since all communicating nodes can move with unlimited mobility, the topology of a mobile ad hoc network can change frequently.
移动自组网中的所有通讯节点均可移动,使得网络拓扑可能频繁发生变化。
In mobile AD hoc networks, how to stimulate selfish nodes to participate in the network cooperation is currently a hot research field.
在移动自组网中,如何激励自私节点,使之参与网络合作,是当前研究的热点问题。
To solve the internodal safety communication problem at ad hoc, a key exchange scheme for mobile ad hoc network in elliptic curve field is proposed.
为了有效解决移动自组网节点间安全通信的问题,提出了一种在椭圆曲线域的会话密钥动态协商方案。
Researches on ANYCAST in Mobile Ad hoc network are analyzed with the discussion of conception, networking model, and the service choosing measures of ANCAST.
并且讨论了泛播的基本概念,网络模型和服务选择标准,对移动自组网络中的泛播研究现状进行了回顾和分析。
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.
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 networks is a dynamic network, the dynamically joining and exiting of network node makes the network chat rooms facing a lot of security issues.
移动自组织网络是一种动态的网络,该网络中的结点的动态加入和退出使得网络聊天室面临很多的安全问题。
Concerning that the resource in mobile Ad Hoc network is limited and the existing ant routing algorithms are complex, a basic ant routing algorithm was proposed.
针对移动自组织网络资源受限的特点和目前已有的蚁群路由算法比较复杂的问题,提出一种基本蚁群路由算法。
Firstly, we introduce the three types of routing protocols for mobile AD hoc network: proactive routing protocols, reactive routing protocols, hybrid routing protocols.
首先叙述了移动自组网的三种路由模式:先应式路由、后应式路由和混合式路由。
Aiming at the issue of the performance of routing protocols in Mobile Ad Hoc Network affected by node density, relativity of routing efficiency and node density is studied.
针对移动自组网路由协议的性能受到节点密度影响的问题,研究路由效率与节点密度的相关性。
Authentication service is a base of implementation of security mobile AD hoc network, mobile users can exchange data communications securely between each other by certificate service.
认证服务是实现安全移动自组网的基础,移动用户可以通过证书服务进行安全数据通信。
Mobile ad hoc networks (MANETs) are collections of wireless mobile nodes, constructed dynamically without the use of any existing network infrastructure or centralized administration.
是由一组无线移动主机组成的一个没有任何建立好的基础设施或集中管理设备的临时网络。
The simulation results indicate that the proposed protocol in mobile ad hoc networks can prolong the network lifetime, decrease the end-to-end delay and improve the network throughput ratio.
仿真结果表明,在移动自组织网络中,该能量有效的跨层协议不但能延长网络的生存时间,减少端到端延迟,而且可以提高网络吞吐率。
Mobile AD hoc network (MANET) is a collection of wireless mobile hosts forming a multi-hop temporary wireless network without the aid of any centralized administration or wired infrastructure.
移动分组无线网是由一系列动态主机节点临时组成的多跳性无线网络。
According to Raytheon, the extended frequency version of the EPLRS (EPLRS-XF) USES the latest mobile ad-hoc networked technology to automatically and continually adapt to network changes.
据雷神公司报道,频率扩展型的EPLRS系统(EPLRS - XF)使用了最新的移动自适应网络技术,可以自动不断地适应网络变化。
EPLRS-XF USES the latest mobile ad-hoc networked technology to automatically and continually adapt to network changes.
EPLRS- XF型无线电使用了最新的移动自组织网络技术以自动不断地适应网络变化。
The EPLRS-XF USES the mobile ad-hoc networked technology to automatically and continually adapt to network changes.
EPLRS - XF使用移动ad -Hoc网络技术,能够自动并不断适应网络的变化。
The key enabler for the network was Raytheon's high-speed Mobile Ad-Hoc Interoperable Network GATEway (MAINGATE).
赋予网络能力的关键是雷神公司高速移动Ad-Hoc互操作网络网关(MAINGATE)。
MAINGATE USES the Next Generation Mobile Ad-Hoc Network (MANET) Waveform, which has proven to be highly effective and efficient in challenging radio frequency conditions.
MAINGATE通过使用下一代移动Ad - Hoc网络(MANET)波形,已被证明在具有挑战性的射频条件下是非常有效和高效的。
MAINGATE USES the Next Generation Mobile Ad-Hoc Network (MANET) Waveform, which has proven to be highly effective and efficient in challenging radio frequency conditions.
MAINGATE通过使用下一代移动Ad - Hoc网络(MANET)波形,已被证明在具有挑战性的射频条件下是非常有效和高效的。
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