Optimised use of nodes in Wireless Sensor Network: A novel approach to overcome the effect of interference

2016 2nd International Conference on Control, Instrumentation, Energy & Communication (CIEC) Pub Date : 1900-01-01 DOI:10.1109/CIEC.2016.7513755

Arnab Ghosh, Madhavi Lata, G. Konar, N. Chakraborty

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引用次数: 4

Abstract

Wireless Sensor Networks have highly been in demand in the recent times for monitoring and controlling purposes. Low cost, low power and simpler architecture involving the wireless sensor modules have made them quite an acceptable tool for data monitoring. But interference has been the major area of concern in WSN which often leads to data loss during data monitoring and have immense ill-effects in controlling of the processes. A large number of wireless nodes communicating in the same frequency range results in signal crossovers. On the other hand, use of less number of routers reduces the system reliability because failure of a single router may cut out communication with a particular sensor. Hence, number of routers used in the network needs to be optimized subject to the constraint that each router should be capable of handling data from multiple tags. In this work, Cultural Algorithm has been employed in a model area consisting of 40 sensors to calculate the optimum number of routers required for efficient performance of the entire network. The results obtained ensure a less interfered and highly reliable network with all the sensor data being collected.

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无线传感器网络中节点的优化使用:一种克服干扰影响的新方法

近年来，无线传感器网络在监测和控制方面的需求很大。低成本，低功耗和更简单的架构涉及无线传感器模块，使其成为相当可接受的数据监控工具。但干扰一直是无线传感器网络关注的主要问题，在数据监测过程中，干扰经常导致数据丢失，对过程的控制产生巨大的不良影响。在同一频率范围内通信的大量无线节点会导致信号交叉。另一方面，使用较少数量的路由器会降低系统的可靠性，因为单个路由器的故障可能会切断与特定传感器的通信。因此，需要在约束下优化网络中使用的路由器数量，并使每个路由器能够处理来自多个标签的数据。在这项工作中，文化算法被应用于一个由40个传感器组成的模型区域，以计算整个网络有效性能所需的最佳路由器数量。得到的结果保证了在采集所有传感器数据的情况下，网络的干扰少，可靠性高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 2nd International Conference on Control, Instrumentation, Energy & Communication (CIEC)

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