Greenhouse Networked Control System Design Methodology to Minimize Cost & Downtime

2023 15th International Conference on Computer and Automation Engineering (ICCAE) Pub Date : 2023-03-03 DOI:10.1109/ICCAE56788.2023.10111465

Mohammed A. Ba Humaish, T. Refaat, H. Amer, Hassan M. F. El-Menier, R. Daoud, Nora A. Ali

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引用次数: 1

Abstract

Smart greenhouses enable the cultivation of various crops in different environmental conditions. Wireless Sensor Networks (WSNs) and Networked Control Systems (NCSs) could be utilized within greenhouses to access, control and monitor different environmental parameters. This paper studies a greenhouse with a special focus on the wireless NCS. It first shows how to use the 2.4GHz frequency band while minimizing Access Point (AP) cost and maintaining an acceptable Packet Loss Rate (PLR). Second, fault-tolerant AP architectures are studied, and a metric is proposed which incorporates AP failure and repair rates, as well as NCS information efficiency to help management select an appropriate architecture, to minimize profit loss. This metric is shown to produce some counter-intuitive results. Finally, Riverbed simulations are used to obtain the minimum sensor transmission power to produce the minimum acceptable PLR in the context of the 2.4GHz band. This power is much lower than that for the 5GHz band; this will prolong sensor battery lifetime.

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减少成本和停机时间的温室网络控制系统设计方法

智能温室能够在不同的环境条件下种植各种作物。无线传感器网络(WSNs)和网络控制系统(NCSs)可用于温室内访问、控制和监测不同的环境参数。本文以温室为研究对象，重点研究了无线网络控制系统。它首先展示了如何使用2.4GHz频段，同时最小化接入点(AP)成本并保持可接受的丢包率(PLR)。其次，研究了容错AP架构，并提出了一个包含AP故障率和修复率以及NCS信息效率的度量，以帮助管理层选择合适的架构，以最大限度地减少利润损失。这个度量被证明会产生一些反直觉的结果。最后，利用河床模拟获得最小传感器发射功率，以在2.4GHz频段产生最小可接受PLR。这个功率远低于5GHz频段;这将延长传感器电池寿命。

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 15th International Conference on Computer and Automation Engineering (ICCAE)

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