首先,基于流体流理论建立了单瓶颈节点的二进制ABR流的网络模型。
The main contributions of this paper are as follows:Firstly, the binary ABR congestion control model is deduced based on the flow theory.
此外,讨论并通过实验证实了准瓶颈节点定义及算法的缺陷,并计算了一些网络特征量。
In addition, we argue and validate the limitation of the quasi-bottleneck nodes, calculate some mathematical character values of ne.
通过对常见的无线传感器网络(WSN)进行研究,分析了WSN中数据传输瓶颈节点形成的原因。
Through the research on wireless sensor networks, this paper analyzed the reasons which cause the bottleneck node of WSN in data transmission.
本文针对单瓶颈节点网络,考虑两个饱和非线性因素,制定控制规则,寻找优化参数,设计模糊控制器。
In this paper, single bottleneck node network is considered. With two saturation factors, we make control rules, find optimal parameters and design the controller.
确定与非确定性节点选择交替有效地解决了瓶颈问题。
Alternating between a deterministic and a non-deterministic node selection effectively solves the bottleneck problem.
然而,这种方案的问题在于,当只有一些终端节点承担了所有网络负载时,瓶颈就出现了。
The problem with this approach, however, is that bottlenecks could be created when only a few end-nodes are tasked to convey all the traffic.
为了解决交换中日益严重的电子瓶颈问题,在节点处引入光子技术,使用了OADM和OXC。
In order to solve the problem of electronic bottleneck, photonics technology is adopted by using OADM and OXC in nodes.
NUMA通过限制任何一条内存总线上的CPU数量并依靠高速互连来连接各个节点,从而缓解了这些瓶颈状况。
NUMA alleviates these bottlenecks by limiting the number of CPUs on any one memory bus and connecting the various nodes by means of a high speed interconnection.
城市道路平面交叉口是城市路网中重要的节点,也是事故频发和造成交通延误的瓶颈点。
The intersection of urban road network is an important urban node, is also a frequent accidents and traffic delays caused by the bottleneck point.
但在网络的交换节点和靠近用户侧的接入子网成了全网的通信瓶颈。
However, the switching node and the access network nearly by the consumers are becoming bottleneck in the whole communication network.
交叉口是道路网络的基本节点,也往往是网络交通流运行的瓶颈口。
The crossroad is the basic point of the urban roads, it may be the neck of the traffic flow operation.
上述措施使分组传输路由很好地避免了拥塞节点,减少了网络瓶颈对网络性能的影响。
With the above properties, the protocol can bring down the congested nodes and bottlenecks in the networks, and improve the network performance.
通过自适应的方式构建超级节点,完成对网络的逻辑划分以及推荐信任度的传递,避免了网络瓶颈的出现。
The outcome of neck in network is avoided by constructing super node, partitioning the network logically and transmitting the trust value in adaptive mode.
无结构P 2 P网络中某些共享资源高的节点容易出现网络阻塞和瓶颈问题。
Certain high sharing nodes in unstructured P2P networks are vulnerable to counter congestion and bottlenecks.
在并行处理系统中,处理节点之间的通信开销是制约处理机性能提高的主要瓶颈。
The communication cost between the processing nodes in parallel processor is the performance bottleneck of the processor.
随着高速网络节点数目的迅猛增加以及网络拓扑结构和应用的日益复杂,传统的网络协议已成为系统通讯的主要瓶颈问题。
With rapid growth of node Numbers, complexity of topological structure and applications in high speed networks, the classical protocols have become the main bottleneck in communication system.
随着高速网络节点数目的迅猛增加以及网络拓扑结构和应用的日益复杂,传统的网络协议已成为系统通讯的主要瓶颈问题。
With rapid growth of node Numbers, complexity of topological structure and applications in high speed networks, the classical protocols have become the main bottleneck in communication system.
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