Broadcast is a common operation in mobile AD hoc networks (MANETs).
广播是移动自组网络(MANET)中的一种常用操作。
In this dissertation, broadcast and unicast routing are studied in MANETs with flat structure.
本文研究具有平坦结构的移动自组网络中的广播与点点路由问题。
A multi-path routing and interface assignment is proposed for multi-interface multi-channel MANETs.
针对多接口多信道MANET网络环境,提出了一种多径路由以及相应的接口分配策略。
Mobile ad-hoc networks (MANETs) represent complex distributed communication systems comprised of wireless mobile nodes.
移动自组织网络是由无线移动节点组成的复杂分布式通信系统。
Mobile AD hoc networks (MANETs) are self-organizing mobile wireless networks that do not rely on a preexisting infrastructure to communicate.
移动自组网是一种自组织的移动无线网络,它不依赖具有基础设施的网络结构进行通信。
When the node number in MANETs reaches certain amount, then the MANETs need to hierarchical management and the whole MANETs is divided into several subnets.
当自组网网络节点数量达到一定规模时,需要对网络进行分级管理,划分出多个子网。
Due to such characteristics, MANETs have great potentials in many applications such as military combat readiness, disaster recovery, environment monitoring.
这些特点使它可以广泛地应用于军事战备、救灾工作、环境监测等,因而具有十分广阔的应用前景。
We present a novel concurrent transmission MAC protocol for MANETs which enjoys the simple design of single-channel, single-transceiver and single-transmission power architecture.
本文提出一种工作在单信道、单发射器和单发射功率模式下的并发传输MAC协议。
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。
When wired networks are not available, as in battlefield communication and emergency search-and-rescue scenarios, MANETs provide a feasible way for communication and information access.
当有线网络不可使用时,如在战场通讯和紧急救援等任务中,移动自组网络提供了一种可行的地面通信和信息存取技术。
A communication system can be more survivable, mobile and adaptive when using the technology of mobile Ad-hoc NETworks. MANETs have become a hot research topic in military communications.
在军事无线通信中引入移动自组网技术,可以使通信系统具备良好的抗毁性、灵活性和机动性,现已成为军事通信领域研究的热点之一。
The media access control (MAC) protocol of mobile Ad Hoc networks (MANETs) is closely-related with its physics layer, most MAC protocols request the capability of carrier sense in physical layer.
无线自组网的介质访问控制(MAC)协议是与物理层密切相关的,大多数MAC协议都要求物理层具备载波感知能力。
The media access control (MAC) protocol of mobile Ad Hoc networks (MANETs) is closely-related with its physics layer, most MAC protocols request the capability of carrier sense in physical layer.
无线自组网的介质访问控制(MAC)协议是与物理层密切相关的,大多数MAC协议都要求物理层具备载波感知能力。
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