Each node requires two addresses on the compute network: one for the compute address and another for the Baseboard Management Controller (BMC), which is used for hardware monitoring and power control.
每个节点在计算网络上需要两个地址:一个用于计算地址,另一个用于基板管理控制器(BMC),BMC用来进行硬件监视和电源控制。
The key to power distribution system is to ignore transient process in this sub-system and to draw the network equivalent circuit diagram, therefore its node voltage equation is algebraic equation.
配电子系统的建模关键是忽略其内部的暂态过程并作出了网络的等值电路图,因而依此建立的节点电压方程为代数方程。
The actual application shows that this system can improve the voltage level for each node of the whole power grid efficiently, reduce network loss, and produce better benefits.
实际应用表明,该系统可有效提高全网各节点的电压合格率,减少网损,能产生较好的经济和社会效益。
The power of wireless node is limited, so how to utilize the energy efficiently and how to improve the performance of network are the key topics in the research of wireless Ad Hoc networks.
无线自组织网节点功率有限,如何有效利用节点电量、改善网络性能是自组网领域研究的关键问题。
Energy-balanced dynamic power route protocol solves the problems caused by flooding based protocol. It balances node energy consumption and prolongs network life cycle, while remains high reliability.
基于能量均衡的动态功率路由协议比较好的解决了基于泛洪的路由协议的不足,节点间能量消耗较为均衡,因此延长了网络生命周期,并保持了很好的可靠性。
In this paper, a design of wireless sensor network node based on low power singlechip MSP430F149 is introduced. The node is consist of MSP430F149, sensors, wireless communication module and batteries.
本文设计了以超低功耗单片机MSP430F149为核心,结合外围传感器和无线收发模块的传感器网络节点。
The power distribution network can be simplified as switch node network. By applying electric network graphic theory its adjacent node matrix and node information matrix can be derived.
忽略电网中的其它元件,将电网从结构上简化为以开关当作节点的网络,应用电工网络图论原理建立节点的邻接矩阵和节点信息矩阵。
It is very necessary for economic run of electric enterprise to decrease network loss and to optimize the node voltage through the real-time online control of reactive power optimization.
通过在线无功优化,降低网损、保证电压质量,对供电企业的经济运行是非常必要的。
Communication protocol should be designed to minimize the network energy consumption, and this system is only needed to consider the issue of sensor node power consumption.
通信协议的设计应尽量降低网络能耗,而本系统中只需要考虑传感器节点的能耗问题。
Numerical simulations indicate that this network model yields three power-law distributions of the node degrees, node strengths and connection weights.
许多实证复杂网络的度分布和点权分布表现为低头和胖尾的幂率分布。
The preceding research field includes boundary of network organization, configuration, governance, and reputation, learning, structure and power of network. node.
网络组织已有研究领域包括网络组织的边界、形态和治理以及网络节点的声誉、学习、组织架构和权力关系等几个方面。
The power cost of the node is low, and the size is small. The wireless sensor network realized data many to jump and the self-organization when the nodes were randomly distributed.
由该节点组成的无线传感器网络功耗低、节点体积小,实现了随机分布的传感器网络自组织和数据的多点跳传。
In this paper, a new method named "node-splitting algorithm" is presented to deal with the power system electromagnetic transient network partition and parallel simulation.
该文从软件开发的角度出发,提出了一种解决电磁暂态实时仿真问题的分网并行算法。
The wireless sensor network node model in system programming is less in size, lower power and faster in velocity, but the wireless sensor network node model in microprocessor is more flexible.
采用现代可编程实现的无线传感网络节点模型体积小、功耗低、速度快。基于微处理器的节点具有极大的灵活性。
Based on the three-node multiple hops network model, it gets the largest throughput which satisfy the delay requirement through the joint distribution algorithm of power and bandwidth.
通过对三节点的多跳网络进行建模,在功率与带宽联合分配算法下,得到满足时延要求的最大吞吐量。
The electric power system entails enough reactive power to meet the needs of consumers and the network. To satisfy numerous node voltages, reactive power should be balanced locally and hierarchically.
电力系统的负荷需要消耗大量的无功功率,而无功功率平衡要满足众多的结点电压,就需要分级分层就地平衡。
And then, according to the features of the looped power supply network, the paper educes the applied calculating methods of two-node power system and more-than-three-node power system respectively.
之后,结合环形供电网络的特点,给出了二节点和三节点以上环形电力系统短路电流的实用计算方法。
And then, according to the features of the looped power supply network, the paper educes the applied calculating methods of two-node power system and more-than-three-node power system respectively.
之后,结合环形供电网络的特点,给出了二节点和三节点以上环形电力系统短路电流的实用计算方法。
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