其次,为了解决整个网络节点能量均衡消耗的问题,研究了无线传感器网络能量多路径路由机制。
Then, in order to balance the energy consumption of network, the multi-path rooting protocol with energy-aware (MP-EA) for wireless sensor networks is researched.
吃一顿营养均衡的早餐有助于增加我们的能量,同时也有助于补充整夜所消耗的蛋白质和钙。
Eating a balanced breakfast helps to up our energy, as well as make up for protein and calcium used throughout the night.
在此基础上,提出了一种改进的数据传输方式,有效地均衡了节点的能量消耗,并显著地延长了网络寿命。
On this basis, an improved data transmission mode is proposed, which equalizes energy consumption of sensor nodes effectively and thus extends network lifetime significantly.
通过仿真实验以及与其它算法的比较,证明本算法能有效均衡网络能量消耗,延长网络寿命。
Through simulation and comparison with other algorithms, it is obvious that this algorithm can effectively balance energy consumption and extend the lifetime of WSN.
因为中间节点要承担多余的转发任务,本文中采用增加网络内层节点密度的办法来均衡各个位置的节点能量消耗。
Because the intermediate nodes have to bear the extra task, this article increases the inner node density of the network approach to balance the node energy consumption in sensoring field.
此算法能够根据网络节点的实际剩余能量自动调节网络节点的休眠概率,均衡网络各个节点的能量消耗,从而提高网络的生存时间。
In this algorithm, each code can adjust its sleeping probability by its remaining energy, balance energy consumption of net codes, so the life time of whole network is enlarging.
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。
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.
通过分析节点的能量消耗计算每层网格的宽度和节点的传输半径,以达到网络能耗的均衡分布。
To achieve the uniform distribution of energy consumption in sensor networks, the widths of the grid and node transmission radius are computed by analyzing node energy consumption.
实验结果表明,该算法能够满足事件驱动分簇的要求,能量消耗比经典算法更均衡。
Experimental results show that the algorithm can require the demands of the event driven clustering, it consumes balanced energy compared with traditional algorithms.
结果虽然均衡了成员节点之间的能量消耗,但是没有考虑到簇头间的能量消耗均衡问题。
Results Although the balance of the members of the energy consumption between nodes, but did not take into account the energy consumption among cluster head balance.
仿真实验结果表明,该路由协议能有效地均衡网络负载和簇头节点能量消耗,减少数据传输延迟,延长网络生存时间。
Simulation results show LBC can effectively balance the load and energy consumption of cluster heads, decrease the delay of packets, and obviously prolong the lifetime of networks.
因此,设计有效的数据收集协议,减少相关数据的发送并均衡节点的能量消耗,以延长网络寿命是一个重要研究问题。
Therefore, it is important to design an effective data gathering scheme that reduces transmission of correlated data and balances energy consumption so that network lifetime is prolonged.
以无线多跳传感器网络中的能量消耗模型为基础,提出一种基于能量均衡的自适应分簇策略。
This paper proposes an efficient Balanced-Energy Clustering Scheme (BECS) which is based on the energy consumption model in multi-hop wireless sensor networks.
仿真实验结果表明,RTCH算法能更有效地均衡网络中的能量消耗,延长网络生命周期。
The simulation and analyses show that the proposed algorithm effectively balances the energy consumption among the wireless sensor network and achieves an obvious improvement on the network lifetime.
仿真结果表明,改进后的协议较LEACH能够有效节约节点能量,均衡网络各节点消耗,显著延长了网络生存周期。
Simulation results show that the improved protocol can reduce energy consumption, balance energy consumption between nodes and prolong the network lifetime.
仿真结果表明,改进后的协议较LEACH能够有效节约节点能量,均衡网络各节点消耗,显著延长了网络生存周期。
Simulation results show that the improved protocol can reduce energy consumption, balance energy consumption between nodes and prolong the network lifetime.
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