In recent years, there has been a remarkable advance in monitoring technologies in many environments, be they urban or rural. These technologies, included in the Internet of Things (IoT) domain, allow remote control and acquisition of data from sensors for their subsequence analysis. All these systems are based on the interaction between sensors and actuators. To achieve this goal, it is necessary to provide a very high level of connectivity between the devices, especially as far as wireless systems are concerned. In this sense, there is a great variety of standards in the market of communication networks oriented to this end. One of the biggest challenges today is to allow inter-operability between these different technologies in order to homogenize this field. In addition to this, it is intended to introduce new communication techniques that can provide certain additional advantages to those already existing. The main idea is the creation of a cellular network where radiofrequency and optical technologies coexist, and whose link with the rest of the world is through long-range and low-consumption wireless technologies. The center of each cell, that is the lighting system, can be powered using solar panels, as can the existing systems in the market. The objective is that these panels are capable of providing the necessary energy to the rest of the necessary systems.

中文翻译：

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物联网的混合RF / VLC网络架构。

近年来，无论在城市还是农村，许多环境中的监测技术都取得了显着进步。这些技术已包含在物联网（IoT）域中，可进行远程控制并从传感器获取数据以进行子序列分析。所有这些系统都是基于传感器和执行器之间的相互作用。为了实现此目标，有必要在设备之间提供非常高级别的连接性，尤其是就无线系统而言。从这个意义上讲，为此目的，在通信网络市场中存在各种各样的标准。当今最大的挑战之一是允许这些不同技术之间的互操作性，以使该领域同质化。除此之外，本文旨在介绍可以为现有技术提供某些其他优势的新通信技术。主要思想是创建一个射频和光技术共存的蜂窝网络，并通过远程和低功耗无线技术与世界其他地区建立联系。像市场上现有的系统一样，每个电池的中心即照明系统都可以使用太阳能电池板供电。目的是这些面板能够为其余必要系统提供必要的能量。并且通过远距离，低功耗的无线技术与世界其他地区建立联系。像市场上现有的系统一样，每个电池的中心即照明系统都可以使用太阳能电池板供电。目的是这些面板能够为其余必要系统提供必要的能量。并且通过远程和低功耗的无线技术与世界其他地区建立联系。像市场上现有的系统一样，每个电池的中心即照明系统都可以使用太阳能电池板供电。目的是这些面板能够为其余必要系统提供必要的能量。