60ghz毫米波信号在车间和钢铁工业中的传播特性

Joseba Osa, N. Björsell, P. Ängskog, I. Val, M. Mendicute
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引用次数: 1

摘要

通信系统是工业4.0革命的关键要素,其中远程访问机器是与不同工业过程的监视和控制相关的自动化任务的基本部分。人们对使用无线媒介进行这种通信越来越感兴趣,因为它们具有成本更低、灵活性更大或在移动元件中操作的能力等优点。然而,现有工作表明,在6 GHz以下频段可实现的性能不足以满足所有需求,这促使对这些用例的毫米波频谱进行分析。工业环境为电磁波传播提供了一个恶劣的条件,其中大量的反射表面可能会给正确交换信息带来困难。因此,有必要对这种环境中的传播进行彻底的分析和表征,从而制定相应的协议和标准。这项工作提供了在两个工业设施中进行的测量结果,这两个工业设施是一个大学车间和一个钢铁公司的窖炉建筑。对结果的度量进行了计算和讨论,其中与其他工业场景相比,坑炉测量的损失要大得多。
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60 GHz mmWave Signal Propagation Characterization in Workshop and Steel Industry
Communication systems are a key element for the industry 4.0 revolution, where the remote access to the machinery is a fundamental part for the automation of tasks related to monitoring and control of the different industrial processes. There is an increasing interest in performing such communications using a wireless medium, as they offer several advantages as a lower cost, greater flexibility or the ability to operate in moving elements. However, existing works have showed that the achievable performance in the sub-6 GHz frequency bands is insufficient to cope with all the requirements, which motivated the analysis of the millimeter wave spectrum for these use cases. Industrial environments present a harsh condition for electromagnetic wave propagation, where the abundance of reflective surfaces can present difficulties to properly exchange information. Thus, a thorough analysis and characterization of the propagation through this kind of environment is necessary to develop protocols and standards accordingly. This work provides the results of measurements carried out in two industrial facilities, which are a university workshop and a pit oven building from a steel company. Metrics of the results are computed and discussed as well, where a significantly larger losses can be seen for the pit oven measurements compared to other industrial scenarios.
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