通过互联互通管理计划和动态集群策略加强智能农业监测

IF 2.1 Q2 ENGINEERING, MULTIDISCIPLINARY
Fariborz Ahmadi, Omid Abedi, S. Emadi
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引用次数: 0

摘要

农业向现代化、智能化系统演进对于实现可持续发展和确保粮食安全至关重要。在此背景下,利用物联网(IoT)是提高作物数量和质量,同时有效管理水和肥料等自然资源的关键战略。无线传感器网络是以物联网为基础的智能农业基础设施的支柱,可收集生态系统数据并将其传输到汇和无人机。然而,挑战依然存在,特别是在网络连接、能耗和网络寿命方面,尤其是在面临超级节点和中继节点故障时。本文介绍了一种创新方法,以解决基于异构无线传感器网络的智慧农业所面临的这些挑战。所提出的解决方案包括一种新颖的连接管理方案和一种动态聚类方法,并通过五种分布式算法加以辅助。第一种和第二种算法侧重于路径收集,通过 k 个异点路径在每个节点和 m 个上节点之间建立连接,以确保网络的稳健性。第三和第四种算法通过调整传输功率和根据剩余能量对农业传感器进行动态聚类,在节点和超级节点发生故障时提供持续的网络连接。在第五种算法中,对支配集问题实施了优化算法,战略性地将中继节点子集定位为移动超级节点的迁移点,以平衡网络的能量消耗。所建议的解决方案在解决连通性、故障容忍度、负载平衡和网络寿命方面表现出卓越的性能,确保了最佳的农业成果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancing Smart Agriculture Monitoring via Connectivity Management Scheme and Dynamic Clustering Strategy
The evolution of agriculture towards a modern, intelligent system is crucial for achieving sustainable development and ensuring food security. In this context, leveraging the Internet of Things (IoT) stands as a pivotal strategy to enhance both crop quantity and quality while effectively managing natural resources such as water and fertilizer. Wireless sensor networks, the backbone of IoT-based smart agricultural infrastructure, gather ecosystem data and transmit them to sinks and drones. However, challenges persist, notably in network connectivity, energy consumption, and network lifetime, particularly when facing supernode and relay node failures. This paper introduces an innovative approach to address these challenges within heterogeneous wireless sensor network-based smart agriculture. The proposed solution comprises a novel connectivity management scheme and a dynamic clustering method facilitated by five distributed algorithms. The first and second algorithms focus on path collection, establishing connections between each node and m-supernodes via k-disjoint paths to ensure network robustness. The third and fourth algorithms provide sustained network connectivity during node and supernode failures by adjusting transmission powers and dynamically clustering agriculture sensors based on residual energy. In the fifth algorithm, an optimization algorithm is implemented on the dominating set problem to strategically position a subset of relay nodes as migration points for mobile supernodes to balance the network’s energy depletion. The suggested solution demonstrates superior performance in addressing connectivity, failure tolerance, load balancing, and network lifetime, ensuring optimal agricultural outcomes.
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来源期刊
Inventions
Inventions Engineering-Engineering (all)
CiteScore
4.80
自引率
11.80%
发文量
91
审稿时长
12 weeks
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