Directional antenna with reproduction optimisation (BFOA) used in mobile ad-hoc network

Q4 Business, Management and Accounting

International Journal of Mobile Network Design and Innovation Pub Date : 2022-01-01 DOI:10.1504/ijmndi.2022.10051468

A. Kumar, V. Goar, M. Kuri, Mohit Srivastava

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引用次数: 0

Abstract

- WSNs are used in considering applications normally follow a ring and star topology where all SNs passes information to Centre controllerto Information Collision). Reconfigurable antenna with optimization brings a capable solution to decrease the accidentsdue to data transmit and obtainauthority in a valuable way, conflicting to classical approach of omnidirectional antenna. Enhancement is two different scenarios: an increase digital antenna acquires which related to some situations expand data transmissionvalue, thus enhancing the amount of mobile nodes essential for extending the system network space and reduction in mandatory data transmission power. The main profits, regarded of this research applying RDA with BFOA optimizing algorithm for MANET or WSNs are regarded sparse. In existing work, rechange directional antennas bring new chances to recover and optimize the data collision in WSNs. Various methods are surveying the rechange directional antenna reliant on received cycle (RDA-RICHER) medium access control rules has implemented for WSN sensor nodes devices with switched antennas. The wide research has been done on wireless network through RDA method that essentially reduces the rate of the energy consumption. The model of the energy consumption is for desired number of nodes. The main issue of the unique node and energy efficiency are undertaken in proposed research using bacteria foragining optimization and also evaluate the optimize energy consumption, optimize latency, received signal strength and collision rates in percentage.

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在移动自组织网络中应用的具有再现优化(BFOA)定向天线

wsn用于考虑应用程序通常遵循环形和星形拓扑，其中所有的wsn将信息传递给中心控制器(信息碰撞)。优化的可重构天线为减少数据传输事故和获取权限提供了一种有价值的解决方案，与传统的全向天线方法相冲突。增强是两种不同的场景:增加数字天线的获取，在某些情况下增加了数据传输的价值，从而增加了扩展系统网络空间所必需的移动节点的数量，降低了强制数据传输功率。本研究将RDA与BFOA优化算法应用于MANET或WSNs的主要收益是稀疏的。在现有的工作中，反向天线给无线传感器网络中数据碰撞的恢复和优化带来了新的机遇。基于接收周期的重换定向天线(RDA-RICHER)介质访问控制规则已经在具有交换天线的WSN传感器节点设备上实现，研究方法多种多样。利用RDA方法在无线网络中进行了广泛的研究，从根本上降低了网络的能耗。能耗模型为期望节点数。在细菌觅食优化的研究中，主要研究了唯一节点和能量效率问题，并对优化能耗、优化延迟、接收信号强度和碰撞率进行了百分比评估。

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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来源期刊

International Journal of Mobile Network Design and Innovation Business, Management and Accounting-Management Information Systems

CiteScore

0.30

自引率

0.00%

发文量

期刊介绍： The IJMNDI addresses the state-of-the-art in computerisation for the deployment and operation of current and future wireless networks. Following the trend in many other engineering disciplines, intelligent and automatic computer software has become the critical factor for obtaining high performance network solutions that meet the objectives of both the network subscriber and operator. Characteristically, high performance and innovative techniques are required to address computationally intensive radio engineering planning problems while providing optimised solutions and knowledge which will enhance the deployment and operation of expensive wireless resources.