A Guide Towards Implementing the Effective Algorithm for Optimum Topology in Complex Terrains

2023 3rd International Conference on Smart Data Intelligence (ICSMDI) Pub Date : 2023-03-01 DOI:10.1109/ICSMDI57622.2023.00011

Anshika Salaria, Amandeep Singh

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Abstract

Wireless Sensor Networks (WSN) have recently been in high demand for various applications. Specifically, in disaster and management scenarios where the terrains are complex and not easily accessible, such networks prove to be the most successful. However, deploying a large number of nodes in such complex terrains at optimum positions is a tedious task. In fact, the network's overall performance is affected by the inefficient deployment of nodes. There are a number of criteria to be kept in mind while deciding the optimum positions of nodes. Therefore, a high demand arises for algorithms that would calculate the most efficient positions based on some parameters. This paper highlights the need for optimum topology network algorithms for wireless sensor networks, state-of-the-art topology optimization algorithms, evaluation criteria to be considered and the tools which can be opted for simulations. This paper would help the researchers to design an optimum topology algorithm to make an efficient wireless network system for complex terrains like forests, wildlife, landslides, etc.

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复杂地形中最优拓扑的有效算法实现指南

近年来，无线传感器网络(WSN)在各种应用中有着很高的需求。具体来说，在地形复杂且不易进入的灾害和管理场景中，这种网络被证明是最成功的。然而，在如此复杂的地形中，在最佳位置部署大量节点是一项繁琐的任务。实际上，网络的整体性能受到节点部署效率低下的影响。在决定节点的最佳位置时，需要记住许多标准。因此，对基于某些参数计算最有效位置的算法提出了很高的要求。本文重点介绍了无线传感器网络对最优拓扑网络算法的需求、最先进的拓扑优化算法、要考虑的评估标准以及可用于仿真的工具。本文将有助于研究人员设计一种最优拓扑算法，使无线网络系统有效地适用于森林、野生动物、山体滑坡等复杂地形。

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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2023 3rd International Conference on Smart Data Intelligence (ICSMDI)

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