The ever-evolving internet of things (IoT) has led to the growth of numerous wireless sensors, communicating through the internet infrastructure. When designing a network using these sensors, one critical aspect is the longevity and self-sustainability of these devices. For extending the lifetime of these sensors, radio frequency energy harvesting (RFEH) technology has proved to be promising. In this paper, we propose CURE, a novel framework for RFEH that effectively combines the benefits of cell-free massive MIMO (CFmMIMO), unmanned aerial vehicles (UAVs), and reconfigurable intelligent surfaces (RISs) to provide seamless energy harvesting to IoT devices. We consider UAV as an access point (AP) in the CFmMIMO framework. To enhance the signal strength of the RFEH and information transfer, we leverage RISs owing to their passive reflection capability. Based on an extensive simulation, we validate our framework's performance by comparing the max-min fairness (MMF) algorithm for the amount of harvested energy.
翻译:不断演变的事物互联网(IoT)导致许多无线传感器的成长,通过互联网基础设施进行通信。在设计使用这些传感器的网络时,一个关键方面是这些装置的寿命和自我维持性。为了延长这些传感器的寿命,无线电频率能源收集技术证明是很有希望的。在本文件中,我们提议CURE,这是REFE的一个新框架,它有效地结合了无细胞大型MIMO(CFMIMO)、无人驾驶飞行器(UAVs)和可重新配置的智能表面(RIS)的好处,以便为IOT装置提供无缝的能源采集。我们认为UAV是CMIMIMF框架内的一个接入点。为了提高RFEH和信息传输的信号强度,我们利用RIS的被动反射能力。基于广泛的模拟,我们通过比较收获能量量的最大公平(MMF)算法来验证我们的框架绩效。
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