本文讨论这样一款DSP,它采用分簇的VLIW体系结构,能够在单个时钟周期同时执行多个操作。
In this thesis we discuss such a DSP, which USES a clustered VLIW architecture and can perform multiple operations simultaneously during a single clock cycle.
研究表明,将传感器节点组织成簇的形式可以有效地减少网络的能量消耗,延长网络的生命周期。
According to the research, by organizing the senor nodes in the form of cluster, we can effectively reduce the energy consumption of network and prolong the life cycles.
该协议是通过周期性地发送识别信息构建传感器网络的簇结构,有效的降低通信网络的负载。
The protocol sends identification information periodically to build cluster structure in sensor network. The protocol can reduce the load of the communication network.
第三,为了延长网络生存周期,提高能量的使用效率,本文提出了一种新的分簇路由算法—能量高效的分簇路由算法。
Third, to prolong the lifetime of the network and enhance the efficiency of energy utilization, we propose a new clustering algorithm-energy efficient clustering algorithm.
该算法可以均衡簇内的能耗,达到延长网络生命周期的效果。
This algorithm can balance the energy consumption, so it can extend the network lifetime effectively.
无线传感器网络的分簇以及能量消耗模型是决定整个网络的生存周期等指标的关键因素。
Clustering of the wireless sensor network and the energy consumption model are the key factors to survival periods of the whole network.
通过降低系统内簇头与簇内节点之间通信的总能量和平均传输时延来提高网络的生命周期。
And the performance of the system would be improved by decreasing the whole communicate energy between the cluster-head and the cluster member and decreasing the average time-delay.
该算法采用分簇方案来建立对偶密钥,均衡利用了网络中所有节点的能量,延长了网络生命周期。
The algorithm adopted the clustered-based scheme to establish pairwise keys, utilized the energy of each node in equilibrium and prolonged the life of sensor networks.
该算法采用分簇方案来建立对偶密钥,均衡利用了网络中所有节点的能量,延长了网络生命周期。
The algorithm adopted the clustered-based scheme to establish pairwise keys, utilized the energy of each node in equilibrium and prolonged the life of sensor networks.
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