无线传感器- actor网络中actor的自动放置

S. Habib, Maytham Safar, Nosayba El-Sayed
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引用次数: 4

摘要

这项工作通过一种进化的方法探索了无线传感器-actor网络中actor的自动放置。无线传感器网络(WSN)由两组节点组成:传感器和参与者,其中传感器组执行来自周围环境的所有感知(数据收集)。由于传感器由电池驱动,因此由于电池寿命短,它们的处理和通信能力受到限制。另一方面,actor集具有更大的功能,具有更长的寿命电池,它们的作用是收集和处理来自传感器的原始数据,以确定WSN的下一个动作。行动者放置问题是在考虑传感器和行动者之间的通信需求的情况下,在WSN中选择最小的行动者集及其最佳位置。我们已经将参与者安置问题编码到进化方法中,其中目标函数是在预算和性能约束下找到尽可能多的传感器所覆盖的参与者的最小总数。实验结果表明,我们的进化方法在375米× 375米的区域内由三个参与者覆盖61个传感器中的77%是可行的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Automatic Placement of Actors within Wireless Sensor-Actor Networks
This work explores the automatic placement of actors within wireless sensor-actor network through an evolutionary approach. A wireless sensor network (WSN) consists of two sets of nodes: sensors and actors, where the set of sensors performs all the sensing (data collection) from their surrounding environment. Since sensors operate by batteries, then they are limited with their processing and communication capabilities due to the short life-span of the batteries. On the other hand, the set of actors has more capabilities with extended life-span batteries, and their roles are to collect and process the raw data from the sensors to determine the next action for WSN. The actor placement problem is to select a minimal set of actors and their optimal locations in WSN keeping in mind the communication requirements between sensors and actors. We have encoded the actor placement problem into the evolutionary approach, where the objective function is to find the minimal total number of actors covering as many sensors as possible subject to budgetary and performance constraints. The experimental results demonstrate the feasibility of our evolutionary approach in covering 77% of 61 sensors by three actors within an area of 375 meters by 375 meters.
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